Optimal Post-Harvest Handling & Storage | Farmer Forum

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encourage you to either

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we encourage you to either raise your

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hand or to put

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a question in the Q&A function

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at the bottom of the bottom of the call, and

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I'm going to work on trying to get you chat functionality as well.

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And so with that I am going I think we asked

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everyone to want to ask everyone to introduce themselves, but

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I don't think about capability at the moment. So we'll

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we'll do that a little bit later in the call. And in

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the meantime, I will kick it over to Sam.

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Awesome. Thank you Lindsey. I'm Sam

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Garen director of Market development at greenwave. And

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I apologize. My sound was not working for a few

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seconds there. So I don't know if Lindsay said anything about me but as director

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of Market development, I'm responsible for

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thinking about everything that happens after the kelp comes out of

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the water which doesn't include post Harvest handling but also things

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like value chain coordination sales and

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marketing of kelp and that sort

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of thing and we are joined today

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by two experts in a produce

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packaging who worked with us on the studies

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that we're about to show share with you. They are Jeff Brandenburg

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and Eric Vandercook and you will have an

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opportunity to ask them questions a little bit later on.

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So our agenda today, we're going to be going over

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some key Concepts when it comes to post Harvest handling and quality.

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We are going to talk about some existing handling and

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storage best practices and then dive

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into our research. We did two different studies over the

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course of the last two years and then

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we're going to talk about some upcoming research and of course leave plenty of times for

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discussion.

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So to kick us off with the concepts, what

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is post-harvest handling? We this

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is not something that is unique to CBD

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post Harvest handling is a stage of agricultural production.

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It is a stage immediately following

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Harvest and this includes Transportation cooling

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cleaning sorting packing anything

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that's in that limbo State between when CV comes

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out of the water and where when it gets into some form

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of stabilized stabilization, whether

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that's packaging or freezing or

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whatever it is you're going to do to it and this is

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really the most important period of time to preserve quality

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again, not just for seaweed but for anything

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from grains to milk to meet this

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is what really really determines the possible end

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uses for your product. You can never add

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quality you can only preserve it.

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And so that's what this that's why this post Harvest handling stage is really

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really important.

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Going one level deeper in this presentation. We're

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going to be talking about quality shelf life

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and a little bit about food safety. Although food

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safety is really not the focus of this presentation. That is

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an area in which sea Grant has covering extremely thoroughly and

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will point you to some resources there that you can

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look at with more if you want to get into more detail on

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food safety, but let's start with shelf life

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here the middle one. So shelf life is the length of

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time during which a product any food product

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remains desirable and in direct shelf

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life testing products are stored under conditions similar to

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those that they will actually face in real life and monitored over

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regular intervals for signs of deterioration. A product

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save. The shelf life is not a guarantee, but rather a statement

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of high likelihood that a product

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will mean will remain usable for the time indicated under

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typical supply chain conditions.

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And the expected shelf life has implications for

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upstream or Downstream rather supply chain logistics. For

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example, if a product total shelf life is 14 days

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and a given retailer requires a shelf life of 10

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days minimum. That means that the product needs to be received by

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the retailer within four days of production, which depending on where your

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product is coming from could be pretty challenging.

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And shelf life is not the same thing as food safety though.

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The two concepts are related. So food safety refers

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to practices that prevent contamination pathogen pathogen

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growth and spoilage that can cause illness in humans

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and a product that has gone beyond its

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expected shelf life is likely not in an

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optimal state of quality, but it may still be physical physically safe

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to consume in contrast. If

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the handling of a product has violated food safety

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best practices, it is not safe to consume regardless

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of whether or not it might look good or whether

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it is within its technical stated shelf

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life because it has been abused and so you shouldn't be

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consuming that

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So our Focus here is really on Commercial considerations

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of shelf life and quality rather

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than food safety, and we're

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going to dive a little bit deeper into what we mean by quality. The

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short definition is measurable standards

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to sort and grade seaweed.

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What does that even mean? What are these measurable standards? We

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are talking about.

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The industry really has yet to

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arrive at a mutually agreed upon set of Standards, but most

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large processors have developed some

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internal quality guidelines, which they use to

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decide which CB that they receive is going

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to which purposes and some of the time this is going to be tied to

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different pricing tiers and we've listed

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out some things here that are specific indicators that

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real buyers today are using when evaluating seaweed

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quality a lot of these are visual

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so like color surface moisture appearance and

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texture all of that you get just by looking at the seaweed,

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but then there's also odor like does it

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smell like nothing does it smell vegetable? Does it

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stink? There's also temperature. So

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you're gonna see in these studies. We looked a lot at whether

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containers of seaweed. We're

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able to cool quickly or even whether he got

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started to be generated from chemical properties

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or chemical processes rather.

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That were happening to the seaweed as it sat there.

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And then there's also sound so if fermentation

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occurs in a pile

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of seaweed, basically you will be able

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to hear it because it will be bubbling you have to get quiet you

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have to listen for it. So these are all indicators of quality and

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any one of these can be taken as an indication

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of deterioration.

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There are also some quality considerations that have nothing to

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do with the kelp itself. But all they're all about how it

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is handled and this is by no means an exhaustive list, but bios

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buyers might also be looking for bio-fouling. So

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like organisms that are in the ocean that end up on the kelp.

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Debris seed string is a really common one,

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but there can also be bits of plastic from baskets or

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you know, I saw a

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picture of one buyer found a penny in their

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seaweed. So any number of things can get in there including

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sediment buyers might also care about the size

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about of the blades or the stipes. They

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might be looking for you to trim or sort your CV to

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spec and then they could be looking for tests and cold chain documentation. And

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we have a lot of plans to work with

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industry stakeholders to Define which of these markets are most critical

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to and products quality, but it's useful to

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know from the start that these are some additional considerations.

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When it comes to existing best practices, we're broken

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it down into two areas Harvest and storage and

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these are kind of combinations of quality

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and food safety considerations.

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For the Harvest we obviously want to keep everything clean and sterile anything

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that is going to come into contact with the kelp which on

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a boat could be a lot of things. We want to make sure that those

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are clean. We want to avoid that

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biofile as much as possible taking care not to cut the seed string.

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We really don't want to come pack the kelp and

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this is it's actually interesting. This is the best practice because this is one of

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the things that are our findings was

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looking or sorry. Our studies was looking to validate was why? Why

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don't we want to compact that? Kelp?

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And then of course we want to protect that

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kelp from extreme temperatures, but also from dirt for an

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objects direct sunlight and fresh water all of which can impact

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those quality measurements that

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we listed on the earlier slide.

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Once kelp is put into storage. We

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want to get it cool as quickly as possible. Ideally within eight

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hours of harvest but the sooner the better and we want to monitor that

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temperature throughout storage and you can either do that yourself a

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couple times a day or there are temperature loggers, which

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we will refer to later. We're

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happy to send your resources on those that you can stick inside the containers and

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you can get a measurement as you

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know, continuously as the kelp isn't

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storage.

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We want to be keeping seaweed moist but not wet.

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Similar to the compacting the help we do not want to cut off access to

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our entirely and we want to process that kelp ideally within

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48 hours.

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And these best practices as well as many

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others are documented in these really really excellent resources produced by

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seagrant as well as the ocean-approved. Kelp Marvin kelp

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farming manual and we strongly recommend checking out those resources

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and continuing to check back as secret continues

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to do some really important work around food safety.

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So

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and

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getting into our research here.

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We can also pause and see if there's any questions on any of

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that. Shall we pause?

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Yeah, sure there haven't been any questions that comment folks

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the chat is open now and feel free to put

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questions in the chat or in the Q&A function. I'll be

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monitoring both and if you want to ask the question, you can raise your hand

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and we'll let you please speak.

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awesome

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Okay, we will continue on.

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All right. So over the last couple of years we did

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two different studies. Both of them were related

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to kelp quality and shelf life. These were

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pilot scale commercial research

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projects and by that,

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I mean that these were not rigorous scientific

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studies. We had a pretty small sample size wasn't replicated

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as many times as you normally would like in a proper R&D setting

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and in 2023 and Beyond we're looking

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to move away from doing as much R&D ourself in favor

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of commercial pilots and partnership with R&D Partners. However,

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we hope that this work contributes to a body

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of knowledge in the broader kelp community and that

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the academic Community can can build on these findings in

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years to come.

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But the projects were a few

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things. The first was that we wanted to investigate the

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respiration rate of kelp. We'll talk about what respiration rate

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is in a second. And we also wanted to look at the impact of

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storage containers different types of storage containers on

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shelf life.

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Using the findings from that we wanted to design packaging specifically

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for fresh sugar. Kelp and then we also

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wanted to think about how does sugar kelp compare to standards that

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exist for produce? Because if

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we are considering kelp in in the food space that

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is what a lot of people think of as a

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similar product on the market.

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Okay. So what is a respiration rate when

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we buy fruits and vegetables

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from the Farmers Market at the grocery store? We have an implicit understanding

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that they are in some way still alive. So

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they're no longer touched to the plant and if

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we keep them around long enough, they eventually begin to

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die but in the period between when the produce is

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harvested and when it dies it that

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is when we eat it and that product has

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metabolic reactions happening

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within it. So specifically the tissues

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that once performed photosynthesis. So using

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sunlight to synthesize nutrients and oxygen

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from carbon dioxide and water switches to respiration

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and respiration is the same

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exact activity that humans and all other

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animals are performing day in and out. It's also known as

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breathing so your kelp

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was in the water it was it was photosynthesizing comes out

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of the water starts to breathe.

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kind of crazy to think about but in respiration sugar

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glucose is combined with oxygen and

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transformed into carbon dioxide water and heat

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and when respiration ends

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and this organism dies and that

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happens when all the glucose in

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the tissues has been used up and it is

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impossible to increase the amount of glucose in

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That organism that is no longer performing photosynthesis. So

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the only thing you can do to slow down that

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process of dying essentially is

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to control the speed or the rate of

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respiration. So a respiration rate is the is the

260
00:13:19.500 --> 00:13:22.200
speed at which all that glucose is being used up and your

261
00:13:22.200 --> 00:13:24.000
kelp is going from being

262
00:13:25.400 --> 00:13:26.600
kind of alive to being

263
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dead

264
00:13:28.600 --> 00:13:31.300
and the slower respiration happens the more

265
00:13:31.300 --> 00:13:32.100
time you have.

266
00:13:33.300 --> 00:13:36.800
To for the for in that kind of limbo land.

267
00:13:40.600 --> 00:13:43.100
So why do we care about respiration rate when it comes

268
00:13:43.100 --> 00:13:46.300
to extending food quality we want to keep respiration rates as

269
00:13:46.300 --> 00:13:49.700
low as possible without killing the product. So again,

270
00:13:49.700 --> 00:13:52.400
we can't control the glucose. So we have to control these

271
00:13:52.400 --> 00:13:55.400
other aspects of respiration the things that contribute

272
00:13:55.400 --> 00:13:58.100
to the respiration rate and a big one here in the

273
00:13:58.100 --> 00:14:01.600
one that we are really focused on for these studies is access to oxygen but

274
00:14:01.600 --> 00:14:05.000
other things that affect the respiration rate can be damaged to

275
00:14:05.200 --> 00:14:08.800
the tissue so physical abuse temperature abuse

276
00:14:08.800 --> 00:14:11.800
or even things like light exposure and all

277
00:14:11.800 --> 00:14:14.400
of this stuff is relevant to storage conditions for

278
00:14:14.400 --> 00:14:17.500
any Market, but this is also relevant for the high-end fresh

279
00:14:17.500 --> 00:14:19.700
food service or retail markets.

280
00:14:22.700 --> 00:14:25.800
So the first study that we did we actually

281
00:14:25.800 --> 00:14:28.200
did twice. We did a very brief version of

282
00:14:28.200 --> 00:14:32.100
it in 2021 and then we did a longer

283
00:14:31.100 --> 00:14:35.000
version of it in 2022. And

284
00:14:34.400 --> 00:14:37.700
in this study we harvested

285
00:14:37.700 --> 00:14:40.400
sugar kelp from our farm The Greenway

286
00:14:40.400 --> 00:14:44.900
Farm on Thimble Island, and we took

287
00:14:43.900 --> 00:14:46.300
the kelp put into a mesh

288
00:14:46.300 --> 00:14:49.500
bag in a cooler with ice and transported it

289
00:14:49.500 --> 00:14:52.800
directly to a Testing Lab

290
00:14:52.800 --> 00:14:55.900
in Rhode Island. So really from Harvest to

291
00:14:55.900 --> 00:14:58.400
the lab is only two to three

292
00:14:58.400 --> 00:15:02.600
hours tops. These are really ideal conditions and the

293
00:15:01.600 --> 00:15:04.700
help was placed in these test bags

294
00:15:04.700 --> 00:15:07.200
that were held under Refrigeration for up to

295
00:15:07.200 --> 00:15:10.600
14 days. And we took daily measurements of oxygen

296
00:15:10.600 --> 00:15:13.100
carbon dioxide and then we also did some

297
00:15:13.100 --> 00:15:16.400
physical observations around those quality metrics that

298
00:15:16.400 --> 00:15:17.300
we shared earlier.

299
00:15:20.100 --> 00:15:23.700
And what we found was first of all sugar kelp

300
00:15:23.700 --> 00:15:26.400
respires that was not necessarily a thing

301
00:15:26.400 --> 00:15:30.000
that we knew we wanted to validate that turns out

302
00:15:30.400 --> 00:15:30.700
it does.

303
00:15:33.100 --> 00:15:36.900
We also learned that the longer you wait to control temperature

304
00:15:36.900 --> 00:15:39.400
and exposure to oxygen and carbon dioxide

305
00:15:39.400 --> 00:15:42.500
the higher. The respiration rate will be which tracks with

306
00:15:42.500 --> 00:15:44.700
what we know about how produce behaves.

307
00:15:45.700 --> 00:15:48.700
We also learned that mature sugar kelp exhibits

308
00:15:48.700 --> 00:15:51.600
a slightly higher respiration rate than juvenile. Kelp.

309
00:15:51.600 --> 00:15:54.200
So it has a shorter shelf life. Although that wasn't a huge

310
00:15:54.200 --> 00:15:57.200
difference. It is something to consider and then

311
00:15:57.200 --> 00:15:57.700
I think the most

312
00:15:58.800 --> 00:16:01.500
shocking thing was that if this

313
00:16:01.500 --> 00:16:04.300
sugar cup was optimally handled we found that it

314
00:16:04.300 --> 00:16:07.300
was able to survive for up to

315
00:16:07.300 --> 00:16:08.300
14 days, which

316
00:16:09.600 --> 00:16:12.600
was longer than we expected and seemed like

317
00:16:12.600 --> 00:16:15.900
a really promising finding for sugarcalp as

318
00:16:15.900 --> 00:16:16.500
a fresh product.

319
00:16:21.400 --> 00:16:24.200
So one of the things that we did with

320
00:16:24.200 --> 00:16:27.400
that information was to get up real

321
00:16:27.400 --> 00:16:31.500
quick. Oh, yeah. Go ahead. Can you okay great. Your your

322
00:16:30.500 --> 00:16:33.800
screen was showing the your application bar

323
00:16:33.800 --> 00:16:36.200
at the end. We couldn't see the whole slide but now we can oh, okay.

324
00:16:36.200 --> 00:16:37.200
Good. You're all good.

325
00:16:38.000 --> 00:16:38.300
cool

326
00:16:39.700 --> 00:16:42.200
So the the purpose of the

327
00:16:42.200 --> 00:16:45.200
respiration rate tests in addition to just kind

328
00:16:45.200 --> 00:16:48.900
of understanding better. What how does sugar kelp behave when it

329
00:16:48.900 --> 00:16:51.300
comes out of the water was to think about what could

330
00:16:51.300 --> 00:16:54.400
packaging look like for fresh sugar? Kelp if

331
00:16:54.400 --> 00:16:57.700
someone wanted to sell it in in a

332
00:16:57.700 --> 00:17:00.500
food service environment. So think of it like the ramps

333
00:17:00.500 --> 00:17:03.000
of the sea, right so we have a short period of time where we are

334
00:17:03.400 --> 00:17:06.100
harvesting this kelp comes directly out of the water. Could we get it

335
00:17:06.100 --> 00:17:09.400
to a distributor that could send it to high-end restaurants

336
00:17:09.400 --> 00:17:13.000
in New York City? Could we get it to the

337
00:17:12.200 --> 00:17:15.100
grocery store and put it on the

338
00:17:15.100 --> 00:17:19.200
Shelf next to the lettuce even if it's just a few weeks only and

339
00:17:18.200 --> 00:17:22.000
what we found was, you know,

340
00:17:21.200 --> 00:17:24.500
the fact that it lasted for 14 days under

341
00:17:24.500 --> 00:17:26.800
these really controlled conditions means that it actually

342
00:17:28.300 --> 00:17:31.300
Has potential in those applications if we were to

343
00:17:31.300 --> 00:17:34.500
package it in what's called modified atmosphere packaging or map

344
00:17:34.500 --> 00:17:37.600
and this is not vacuum packaging map

345
00:17:37.600 --> 00:17:40.300
is packaging that is designed to control the transmission of

346
00:17:40.300 --> 00:17:45.100
gases through the atmosphere by

347
00:17:43.100 --> 00:17:47.600
by basically allowing

348
00:17:46.600 --> 00:17:49.800
the atmosphere

349
00:17:49.800 --> 00:17:52.900
inside the package to come to equilibrium with the

350
00:17:52.900 --> 00:17:55.600
outside of the package through the use

351
00:17:55.600 --> 00:17:58.900
of specialized materials and small holes micro perforations.

352
00:17:58.900 --> 00:18:01.300
So eventually an equilibrium is

353
00:18:01.300 --> 00:18:04.000
reached but the inside of the package is different than the outside of the

354
00:18:04.000 --> 00:18:04.400
package.

355
00:18:05.700 --> 00:18:08.400
And this controlling of

356
00:18:08.400 --> 00:18:11.400
gases lowers the respiration rate and other cellular

357
00:18:11.400 --> 00:18:14.700
processes and also creates a slightly acidic environment

358
00:18:14.700 --> 00:18:18.100
which slows down the growth of spoilage bacteria.

359
00:18:19.500 --> 00:18:22.200
And so we've had a few

360
00:18:22.200 --> 00:18:26.300
fresh who was on the call and we can ask them questions at the end. They they designed

361
00:18:25.300 --> 00:18:28.400
this packaging we came up with this packaging one

362
00:18:28.400 --> 00:18:32.000
pager which we will share with you after this call and we

363
00:18:31.100 --> 00:18:34.800
are really hoping that folks give this packaging a

364
00:18:34.800 --> 00:18:37.900
try we have both designed

365
00:18:37.900 --> 00:18:40.400
the the specific bags to use

366
00:18:40.400 --> 00:18:43.200
and then giving you some resources for where you

367
00:18:43.200 --> 00:18:46.700
can get those through through actual

368
00:18:46.700 --> 00:18:47.700
manufacturers.

369
00:18:51.800 --> 00:18:54.200
The second study that we did was on

370
00:18:54.200 --> 00:18:57.500
storage containers. So we wanted to understand more about

371
00:18:57.500 --> 00:19:00.500
this, you know, keep the kelp fluffy thing. And and why

372
00:19:00.500 --> 00:19:03.100
do we do that? And we also wanted to investigate?

373
00:19:04.500 --> 00:19:07.700
whether the sort of Industry standard practice

374
00:19:07.700 --> 00:19:10.300
of putting a large amount of kelp in a

375
00:19:10.300 --> 00:19:13.200
big sealed container is actually good for

376
00:19:13.200 --> 00:19:15.900
the kelp because it's something that everybody's doing and

377
00:19:17.200 --> 00:19:20.600
We wanted to know if it was ideal. So we took

378
00:19:20.600 --> 00:19:23.100
some sugarcalp from the East River of New York.

379
00:19:23.100 --> 00:19:26.700
We transported it to New Haven. It was

380
00:19:26.700 --> 00:19:29.000
not in refrigeration during that time. So it got a little bit of

381
00:19:29.500 --> 00:19:33.300
abuse and we put it in these three different types of containers one

382
00:19:32.300 --> 00:19:35.300
is a bulk bin, but a vented

383
00:19:35.300 --> 00:19:38.700
bulk bin and only half height the other is a small

384
00:19:38.700 --> 00:19:42.100
vented produce tote which might not

385
00:19:41.100 --> 00:19:45.100
be entirely practical for the

386
00:19:44.100 --> 00:19:47.300
large volumes of harvest. But we wanted to

387
00:19:47.300 --> 00:19:51.300
look at it from just a pure experimental

388
00:19:50.300 --> 00:19:53.100
perspective. And then we also had these

389
00:19:53.100 --> 00:19:56.500
55 gallon poly drums, which we totally sealed up

390
00:19:56.500 --> 00:19:59.500
except for a small hole in the top through which

391
00:19:59.500 --> 00:20:00.900
we could measure gases.

392
00:20:02.500 --> 00:20:05.800
And so we put kelp into these different types of containers. We

393
00:20:05.800 --> 00:20:08.500
store them for seven days and we took measurements throughout that

394
00:20:08.500 --> 00:20:08.700
time.

395
00:20:12.600 --> 00:20:16.600
What we found in this study is that the

396
00:20:15.600 --> 00:20:18.500
large in the

397
00:20:18.500 --> 00:20:21.300
in the barrels the kelp stayed moist but it

398
00:20:21.300 --> 00:20:25.100
didn't cool properly and more importantly it reached

399
00:20:24.100 --> 00:20:27.200
near anaerobic conditions and by that

400
00:20:27.200 --> 00:20:31.300
we mean that the kelp remember we just talked about with needing oxygen

401
00:20:30.300 --> 00:20:33.800
in order to keep that respiration rate going essentially

402
00:20:33.800 --> 00:20:36.300
the kelp used up almost all of the

403
00:20:36.300 --> 00:20:39.000
oxygen in those barrels and at the

404
00:20:39.200 --> 00:20:42.900
end of the seven days when we opened it the kelp was audibly bubbling. It

405
00:20:42.900 --> 00:20:45.800
smelled acidic it looked great actually, but it

406
00:20:45.800 --> 00:20:47.300
was clearly fermenting.

407
00:20:48.900 --> 00:20:52.600
The large bins what

408
00:20:51.600 --> 00:20:54.400
we found was there were no

409
00:20:54.400 --> 00:20:57.100
fermentation occurred because the the kelp had plenty

410
00:20:57.100 --> 00:21:00.500
of access to oxygen so it did not start to ferment but

411
00:21:00.500 --> 00:21:03.600
it actually retained or maybe even generated heat

412
00:21:03.600 --> 00:21:06.200
in the center of the bin. So this was even

413
00:21:06.200 --> 00:21:09.100
a half height size bulk bin

414
00:21:09.100 --> 00:21:12.500
and yet there was heat in the middle possibly because the

415
00:21:12.500 --> 00:21:15.600
kelp was cutting off oxygen to

416
00:21:15.600 --> 00:21:18.100
itself. We don't know for sure but that's sort of

417
00:21:18.100 --> 00:21:21.800
our working hypothesis. And then in the smallest totes,

418
00:21:21.800 --> 00:21:24.400
they cooled very quickly. There were no temperature differences

419
00:21:24.400 --> 00:21:27.000
in the center of the bin between the center and the outside of

420
00:21:27.100 --> 00:21:30.400
the bin there were no off odors and there was less dryness than in those those

421
00:21:30.400 --> 00:21:32.800
big half bins or totally open on top.

422
00:21:34.100 --> 00:21:36.800
So our takeaway here was that.

423
00:21:38.700 --> 00:21:42.400
Airtight and large volume storage containers potentially jeopardized

424
00:21:41.400 --> 00:21:44.200
sugar kelp quality by cutting off

425
00:21:44.200 --> 00:21:48.200
this access to oxygen and obviously depends on you

426
00:21:47.200 --> 00:21:50.100
know, how quickly you are getting it out of

427
00:21:50.100 --> 00:21:53.400
that big bin again. It also depends on whether it's just sitting there

428
00:21:53.400 --> 00:21:56.200
or whether it is submerged in water,

429
00:21:56.200 --> 00:21:59.400
especially if there is it's submerged in

430
00:21:59.400 --> 00:22:02.100
ocean water which has oxygen dissolved in it. I think

431
00:22:02.100 --> 00:22:05.100
there are some really interesting follow-on studies that could

432
00:22:05.100 --> 00:22:06.300
be done with that but

433
00:22:07.800 --> 00:22:10.800
Um, the the behavior of the barrels said

434
00:22:10.800 --> 00:22:13.200
to us pretty loud and clear that that cutting off all

435
00:22:13.200 --> 00:22:16.200
the oxygen was not a thing we want to be doing.

436
00:22:19.900 --> 00:22:22.300
And then when we looked at how this performance of sugar

437
00:22:22.300 --> 00:22:26.000
compares to what the produce industry expects the

438
00:22:25.800 --> 00:22:28.600
most are the produce in the country has

439
00:22:28.600 --> 00:22:31.100
grown on the west coast and shipped to

440
00:22:31.100 --> 00:22:34.400
the east coast. And so we usually that

441
00:22:34.400 --> 00:22:37.700
if you're on the East Coast we're looking at 21 days from the

442
00:22:37.700 --> 00:22:40.800
time that a leafy green is harvested

443
00:22:40.800 --> 00:22:43.800
to when you you know

444
00:22:43.800 --> 00:22:46.500
the last day you could possibly buy it at

445
00:22:46.500 --> 00:22:49.100
the retail store. And so I think

446
00:22:49.100 --> 00:22:52.700
this really speaks to the regionality the

447
00:22:52.700 --> 00:22:55.200
importance of regionality here. This is

448
00:22:55.200 --> 00:22:58.600
21 days is likely not going to be feasible for

449
00:22:58.600 --> 00:23:02.200
sugar kelp. But you know from the

450
00:23:02.200 --> 00:23:05.300
respiration rate trials, we did see that the kelp was

451
00:23:05.300 --> 00:23:07.600
able to last 14 days.

452
00:23:08.500 --> 00:23:11.300
And so it is within the range of

453
00:23:11.300 --> 00:23:15.000
possible possible use in a

454
00:23:14.100 --> 00:23:17.700
kind of Market situation similar

455
00:23:17.700 --> 00:23:19.400
to produce.

456
00:23:20.200 --> 00:23:23.700
And you know this could decrease if the kelp

457
00:23:23.700 --> 00:23:26.300
is abused if it is left out if it

458
00:23:26.300 --> 00:23:31.000
is not cooled quickly, but it's

459
00:23:29.400 --> 00:23:33.000
I think it was really promising and

460
00:23:32.600 --> 00:23:35.800
encouraging to see how well sugarcult behaved

461
00:23:35.800 --> 00:23:36.500
relative to.

462
00:23:37.500 --> 00:23:39.100
What the expectations are for produce?

463
00:23:42.800 --> 00:23:46.600
Next steps so we definitely do not

464
00:23:46.600 --> 00:23:49.300
think that this work was comprehensive. And so

465
00:23:49.300 --> 00:23:52.400
we want to do some more work to determine what other factors might

466
00:23:52.400 --> 00:23:56.600
influence respiration rates and shelf life, you know

467
00:23:56.600 --> 00:24:00.000
based on the studies described. We

468
00:23:59.300 --> 00:24:02.600
think that you can extend the shelf life.

469
00:24:02.600 --> 00:24:06.000
If we really take post-harvest handling seriously, which

470
00:24:05.200 --> 00:24:08.400
would make it feasible as a fresh or Food

471
00:24:08.400 --> 00:24:11.300
Service product. So these are

472
00:24:11.300 --> 00:24:14.600
some of the other considerations that we might want to look into

473
00:24:14.600 --> 00:24:18.000
or that someone else in this call might want to look into and

474
00:24:17.400 --> 00:24:20.400
we would love to talk more

475
00:24:20.400 --> 00:24:23.300
about anyone seeking to to do

476
00:24:23.300 --> 00:24:24.400
studies like this going forward.

477
00:24:26.800 --> 00:24:29.000
We do have a few more studies planned for this

478
00:24:29.400 --> 00:24:32.800
coming year. We are going to be looking at iodine control

479
00:24:32.800 --> 00:24:35.300
assault control holding temperature and

480
00:24:35.300 --> 00:24:38.900
humidity, which we did not look at in the storage studies last

481
00:24:38.900 --> 00:24:41.700
year and also biofuel removal

482
00:24:41.700 --> 00:24:44.400
in this work is going to be funded in

483
00:24:44.400 --> 00:24:47.700
part by a safe seaweed Coalition Grant and we are working with Q fresh

484
00:24:47.700 --> 00:24:48.000
again.

485
00:24:48.800 --> 00:24:51.800
so with that let's

486
00:24:52.800 --> 00:24:53.700
do some Q&A.

487
00:24:55.900 --> 00:24:58.600
Awesome. Thanks so much Sam so

488
00:24:58.600 --> 00:25:01.800
much in there. I'm excited to unpack it Azure had

489
00:25:01.800 --> 00:25:05.700
a good question early on just from a farmer's perspective do

490
00:25:04.700 --> 00:25:07.300
your research. She asked

491
00:25:07.300 --> 00:25:10.100
bags or coats for Harvest. Do you

492
00:25:10.100 --> 00:25:13.200
have recommendations for folks who are on the boat?

493
00:25:15.800 --> 00:25:18.800
I'm sorry. Could you I don't

494
00:25:18.800 --> 00:25:20.100
I didn't quite get that.

495
00:25:21.400 --> 00:25:24.100
The question was when when farmers are harvesting. Do you

496
00:25:24.100 --> 00:25:28.500
recommend bags or totes for Harvest? Um,

497
00:25:28.500 --> 00:25:31.300
I mean, it depends on what kind of bag or what

498
00:25:31.300 --> 00:25:34.000
kind of tote I would say. Um, I think you know

499
00:25:34.400 --> 00:25:36.300
the based on what we just learned.

500
00:25:37.500 --> 00:25:41.200
the it seems that more smaller

501
00:25:40.200 --> 00:25:43.700
containers that allow the kelp

502
00:25:43.700 --> 00:25:46.400
to not Crush itself under its

503
00:25:46.400 --> 00:25:49.200
own weight, which which reduces its access

504
00:25:49.200 --> 00:25:52.200
to oxygen would be better, but you have

505
00:25:52.200 --> 00:25:55.100
to weigh that against the Practical considerations of

506
00:25:56.300 --> 00:25:59.200
You know, you are you're on a boat and you're harvesting and

507
00:25:59.200 --> 00:26:03.100
you need to do that quickly. So we don't have the answer necessarily

508
00:26:02.100 --> 00:26:05.200
in terms of the type of container that

509
00:26:05.200 --> 00:26:08.500
is best. But I think our guidance is

510
00:26:08.500 --> 00:26:11.900
to consider whether there is a slightly either smaller

511
00:26:11.900 --> 00:26:14.900
container or a way to build structure into

512
00:26:14.900 --> 00:26:17.500
the containers that you're using so that the so that

513
00:26:17.500 --> 00:26:20.200
you're not cutting off oxygen to the

514
00:26:20.200 --> 00:26:22.500
kelp that's in the center of a very large bin.

515
00:26:23.200 --> 00:26:26.100
And Jennifer Eric. I

516
00:26:26.100 --> 00:26:29.100
don't know if you want to weigh in here. I mean, I know that one thing that

517
00:26:29.100 --> 00:26:32.200
I've found really educational about working

518
00:26:32.200 --> 00:26:35.200
with Jeff. And Eric is you think about like where does all our

519
00:26:35.200 --> 00:26:38.500
lettuce come from? And so a question I would send to Jeff early on I was like, would

520
00:26:38.500 --> 00:26:41.200
you ever take lettuce like us like spinach and put

521
00:26:41.200 --> 00:26:44.500
it into a 500 pound bin and

522
00:26:44.500 --> 00:26:48.500
he was like, no you would never do that. So if

523
00:26:48.500 --> 00:26:50.800
I don't know if you have anything you can share with that.

524
00:26:51.800 --> 00:26:52.900
Yeah, I mean.

525
00:26:53.800 --> 00:26:56.800
Sam great job just kind

526
00:26:56.800 --> 00:26:59.400
of reiterating what you said you're dealing with a living

527
00:26:59.400 --> 00:27:01.200
product. It's one of the few.

528
00:27:02.700 --> 00:27:05.400
Packaging whether we're talking about bulk packaging or food service

529
00:27:05.400 --> 00:27:08.700
or retail. It's one of the few packaging applications where

530
00:27:08.700 --> 00:27:11.500
you actually have the privilege of packaging something that's

531
00:27:11.500 --> 00:27:11.900
alive.

532
00:27:12.500 --> 00:27:15.400
There's Sam said it's consuming oxygen. It's giving off

533
00:27:15.400 --> 00:27:18.100
carbon dioxide. You don't want to choke at all.

534
00:27:18.700 --> 00:27:21.400
So when you're harvesting if you

535
00:27:21.400 --> 00:27:24.400
can have those bins be vented in some way

536
00:27:24.400 --> 00:27:27.200
especially if they're going to be in those bins for a while.

537
00:27:28.200 --> 00:27:31.900
The produce industry uses those small bins

538
00:27:31.900 --> 00:27:34.400
that you saw in an earlier slide. That's

539
00:27:34.400 --> 00:27:37.400
probably not practical for the seaweed

540
00:27:37.400 --> 00:27:41.000
industry. So you're gonna need to get larger bins. But

541
00:27:40.300 --> 00:27:43.400
if they can be vented so you can allow

542
00:27:43.400 --> 00:27:46.600
oxygen to that product the longer

543
00:27:46.600 --> 00:27:49.000
it's going to last before you get it into the

544
00:27:49.400 --> 00:27:52.200
final package and the final package is doing the same

545
00:27:52.200 --> 00:27:55.400
thing. It's allowing oxygen in it's allowing

546
00:27:55.400 --> 00:27:58.400
carbon dioxide out and the transmission

547
00:27:58.400 --> 00:28:01.400
rate of those final packages is in

548
00:28:01.400 --> 00:28:05.000
concert with the physiological breathing properties

549
00:28:04.200 --> 00:28:06.100
of the produce.

550
00:28:06.700 --> 00:28:09.200
So for harvesting if you

551
00:28:09.200 --> 00:28:12.300
have to put it in big totes leave the lid

552
00:28:12.300 --> 00:28:14.300
off if you can and I realize that.

553
00:28:15.200 --> 00:28:18.400
You know, there are some Logistics here that that

554
00:28:18.400 --> 00:28:20.500
may be difficult but at the end of the day.

555
00:28:21.600 --> 00:28:24.300
You've got a live product and you have to allow it

556
00:28:24.300 --> 00:28:26.700
to breathe or it's going to go anaerobic.

557
00:28:27.300 --> 00:28:30.900
Go into what's called fermentative metabolism and you're

558
00:28:30.900 --> 00:28:33.600
going to create those off flavors and all voters.

559
00:28:35.400 --> 00:28:36.000
Thanks, Steph.

560
00:28:37.300 --> 00:28:37.600
That's awesome.

561
00:28:38.300 --> 00:28:38.800
You had just a quick.

562
00:28:39.100 --> 00:28:42.300
Follow-up. So she said for my small farm that the RPC totes could

563
00:28:42.300 --> 00:28:45.300
work, but do I need ice cubes or some other icing in

564
00:28:45.300 --> 00:28:46.300
the middle of the kelp?

565
00:28:48.300 --> 00:28:51.900
um, no, most of the guidance that

566
00:28:51.900 --> 00:28:56.000
that we've seen from from sea

567
00:28:54.100 --> 00:28:57.300
Grant states that

568
00:28:57.300 --> 00:29:00.000
you don't want the kelp to come directly into contact with

569
00:29:01.500 --> 00:29:05.200
With ice or with anything freezing because it can

570
00:29:04.200 --> 00:29:07.300
shock it and that actually isn't great for it either.

571
00:29:07.300 --> 00:29:10.200
So the ideal is that you harvest it under

572
00:29:10.200 --> 00:29:15.300
cool conditions and then you pretty quickly get it to Refrigeration. Alternatively.

573
00:29:13.300 --> 00:29:16.200
I I do know

574
00:29:16.200 --> 00:29:19.300
that there are a fair number of folks now who are harvesting the kelp

575
00:29:19.300 --> 00:29:22.500
and then submerging it back in the ocean water and

576
00:29:22.500 --> 00:29:25.400
we did not look at that. I think

577
00:29:25.400 --> 00:29:28.300
that's really interesting and also a really great way

578
00:29:28.300 --> 00:29:31.500
to both keep the kelp cool and again if

579
00:29:31.500 --> 00:29:34.200
there's if if there's oxygen dissolved in that water

580
00:29:35.100 --> 00:29:38.100
You could you know, you're releasing the weight that it could

581
00:29:38.100 --> 00:29:41.400
be that there's water flowing there. But I do want emphasize we didn't test that. So

582
00:29:41.400 --> 00:29:44.300
I think it's really promising and maybe that's why

583
00:29:44.300 --> 00:29:45.400
it seems to work for people but

584
00:29:48.200 --> 00:29:49.400
Um, yeah, that's where we are.

585
00:29:50.000 --> 00:29:50.300
awesome

586
00:29:51.700 --> 00:29:54.900
a question from boyan. It sounds

587
00:29:54.900 --> 00:29:57.500
like there are two competing interest keeping oxygen out

588
00:29:57.500 --> 00:30:00.700
of the kelp's storage environment to keep this kelp cells

589
00:30:00.700 --> 00:30:03.600
respiration rate low, but then also of waiting

590
00:30:03.600 --> 00:30:06.900
to little oxygen because this encourages anaerobic microbes

591
00:30:06.900 --> 00:30:09.400
to ferment the kill. Is there an environment that

592
00:30:09.400 --> 00:30:12.100
prevents both respiration and fermentation?

593
00:30:13.900 --> 00:30:16.100
Hi, this is Eric vandercoat from

594
00:30:16.100 --> 00:30:19.300
Q. Fresh out. I'll handle that one. Um, the short

595
00:30:19.300 --> 00:30:22.200
answer is yes. So every seaweed is going to be a little bit

596
00:30:22.200 --> 00:30:25.600
different every seaweed is going to have a different

597
00:30:25.600 --> 00:30:29.100
optimal range. Every seaweed going to have a different

598
00:30:28.100 --> 00:30:32.200
respiration rate depending on the temperature But

599
00:30:31.200 --> 00:30:35.100
ultimately it's going to also have an optimal

600
00:30:34.100 --> 00:30:37.900
range of o2 values which keeps

601
00:30:37.900 --> 00:30:40.300
it above the Anna anaerobic threshold, but

602
00:30:40.300 --> 00:30:43.400
also increases that oxygen enough

603
00:30:43.400 --> 00:30:44.800
to give you a shelf like

604
00:30:45.600 --> 00:30:48.500
And that's something that that is dependent

605
00:30:48.500 --> 00:30:51.600
on mainly temperature in the

606
00:30:51.600 --> 00:30:52.000
seaweed type.

607
00:30:55.200 --> 00:30:58.500
Awesome. Thanks, Eric. And Edie and

608
00:30:58.500 --> 00:31:01.000
Kathryn have two similar questions. They ask well, do you

609
00:31:01.200 --> 00:31:04.700
please expand on why it's best to keep kelp moist but not wet specifically

610
00:31:04.700 --> 00:31:07.400
is their reason not to store. Kelp in cold seawater

611
00:31:07.400 --> 00:31:10.400
for a short term one or two days prior to next

612
00:31:10.400 --> 00:31:13.100
stage processing and Catherine similarly asks, can you

613
00:31:13.100 --> 00:31:16.400
float a brailleur bag in a small amount of salt water in a large tote?

614
00:31:17.500 --> 00:31:20.800
Again, Eric Anika from few fresh here. You know,

615
00:31:20.800 --> 00:31:24.000
I think that comes down to controls. So if

616
00:31:23.200 --> 00:31:26.600
you're if you have standing water that

617
00:31:26.600 --> 00:31:29.300
you're trying to put this into that is

618
00:31:29.300 --> 00:31:32.200
not very well controlled. Then that's going to be kind of

619
00:31:32.200 --> 00:31:36.000
a different setup than say if you had wait,

620
00:31:35.100 --> 00:31:39.900
you know, I know of a company for example that has tanks

621
00:31:38.900 --> 00:31:41.200
near the near the ocean where

622
00:31:41.200 --> 00:31:45.300
they're actually pumping sea water from the ocean and and they're actually growing seaweed

623
00:31:44.300 --> 00:31:47.500
inside the tank now that same type

624
00:31:47.500 --> 00:31:51.100
of setup because probably be worked for freshly

625
00:31:50.100 --> 00:31:54.000
Harvest freshly harvested seaweed

626
00:31:53.100 --> 00:31:57.200
that you then put in there for, you know at the

627
00:31:56.200 --> 00:31:59.700
right temperature to it to extend that

628
00:31:59.700 --> 00:32:01.300
I don't see why that wouldn't work.

629
00:32:02.500 --> 00:32:05.300
Right, and I think the key difference there is standing water

630
00:32:05.300 --> 00:32:06.200
versus.

631
00:32:07.400 --> 00:32:10.200
Versus either the ocean which is decidedly not

632
00:32:10.200 --> 00:32:13.600
standing or or like Eric's describing

633
00:32:13.600 --> 00:32:16.600
where there's a bubbler or something that is refreshing that

634
00:32:16.600 --> 00:32:20.100
water and making sure that there are still oxygen in

635
00:32:19.100 --> 00:32:22.400
in it. But if you just let the water sit there

636
00:32:22.400 --> 00:32:25.200
whether it's fresh water or sea water you're not you're not

637
00:32:25.200 --> 00:32:26.300
going to get much out of that.

638
00:32:27.500 --> 00:32:30.400
Yeah at the end of the day you keep in

639
00:32:30.400 --> 00:32:33.700
mind. This is after you as soon as you harvest it

640
00:32:33.700 --> 00:32:36.500
you go into this respiration. So the

641
00:32:36.500 --> 00:32:40.000
the kelp is wanting to consume oxygen give

642
00:32:39.200 --> 00:32:43.100
off carbon dioxide just like we do so you've

643
00:32:42.100 --> 00:32:45.200
got to have it allow it to

644
00:32:45.200 --> 00:32:48.100
have access to that oxygen that may be

645
00:32:48.100 --> 00:32:51.500
through an active sea water or through it's you

646
00:32:51.500 --> 00:32:54.000
know in air in some kind of vented toe. You don't want

647
00:32:54.100 --> 00:32:55.500
to completely dry out.

648
00:32:56.300 --> 00:32:59.300
But you do have to be careful. You just can't dunk it

649
00:32:59.300 --> 00:33:01.200
in standing water for a long period of time.

650
00:33:01.900 --> 00:33:03.600
Because it's not going to get that oxygen.

651
00:33:06.700 --> 00:33:10.200
That's great. Thanks guys. I'm really thorough answer Steve had

652
00:33:10.200 --> 00:33:12.400
a clarifying question about the study that you did.

653
00:33:12.800 --> 00:33:15.500
Say he wanted to know how much weight was able to be put into

654
00:33:15.500 --> 00:33:17.800
the two different types of totes that you mentioned.

655
00:33:18.900 --> 00:33:22.200
Yeah, good question. We turns

656
00:33:21.200 --> 00:33:24.100
out our skills broken. So we

657
00:33:24.100 --> 00:33:27.300
unfortunately didn't get that measurement. But anecdotally I

658
00:33:27.300 --> 00:33:30.400
can tell you that the small RPC totes.

659
00:33:30.400 --> 00:33:32.700
I mean, it was really not a lot of seaweed. It was maybe

660
00:33:34.500 --> 00:33:37.800
I mean, I would say seven to ten

661
00:33:37.800 --> 00:33:41.300
pounds Max per bin and then

662
00:33:40.300 --> 00:33:43.500
the big ones were pretty substantial

663
00:33:43.500 --> 00:33:44.900
the big ones I would say were.

664
00:33:46.400 --> 00:33:49.500
I don't know if you a couple hundred pounds, maybe

665
00:33:49.500 --> 00:33:52.600
like I would say two like a hundred 200

666
00:33:52.600 --> 00:33:55.500
pounds, but I that's a guess based on.

667
00:33:56.500 --> 00:33:59.600
Me physically putting see creating for

668
00:33:59.600 --> 00:34:02.700
the containers this speaks to

669
00:34:02.700 --> 00:34:04.500
our the pilot nature of these studies.

670
00:34:07.200 --> 00:34:10.500
But I do know that when people are using the full size of those toes.

671
00:34:10.500 --> 00:34:13.500
So those were standard like pallet sized footprint and

672
00:34:13.500 --> 00:34:16.700
just a half height when people do generally do

673
00:34:16.700 --> 00:34:19.200
the the larger version. I have

674
00:34:19.200 --> 00:34:22.300
seen guidance that you will don't want to put more than 500 pounds

675
00:34:22.300 --> 00:34:25.600
in those. So it would check out that roughly half of that would be you

676
00:34:25.600 --> 00:34:26.900
know, 200 250.

677
00:34:29.600 --> 00:34:32.100
Great Tobias wants to know

678
00:34:32.100 --> 00:34:35.200
fresh. Kelp versus freeze blasted. Kelp. What

679
00:34:35.200 --> 00:34:39.100
are the benefits of the fresh stuff over the Frozen? Mmm. So

680
00:34:38.100 --> 00:34:41.700
we did not look at freezing at

681
00:34:41.700 --> 00:34:44.700
all as part of this. This study was

682
00:34:44.700 --> 00:34:48.100
really focused on Fresh. So so

683
00:34:47.100 --> 00:34:50.400
unfortunately, I can't answer the question. Sorry.

684
00:34:52.300 --> 00:34:55.200
A similar question from Angela. She is wondering do you

685
00:34:55.200 --> 00:34:58.300
think with the safe handling practices that keep the

686
00:34:58.300 --> 00:35:01.400
kelp alive and well up to 14 days that this is

687
00:35:01.400 --> 00:35:04.300
a window in which it can then be dried or is it still best

688
00:35:04.300 --> 00:35:05.800
to dry within 48 hours?

689
00:35:06.800 --> 00:35:09.700
It's always best to get it stable like properly

690
00:35:09.700 --> 00:35:11.900
stable as fast as you can for sure.

691
00:35:13.600 --> 00:35:16.600
If you can process within 48 hours do

692
00:35:16.600 --> 00:35:19.400
it that that's that's my guidance Arab Jeff

693
00:35:19.400 --> 00:35:21.900
for Eric. I don't know if you have anything to add to that.

694
00:35:23.500 --> 00:35:26.400
I would I would concur with that and and the

695
00:35:26.400 --> 00:35:29.100
one thing I can say about the I can't speak

696
00:35:29.100 --> 00:35:33.200
to cope because we didn't test it but I can speak to Fresh

697
00:35:32.200 --> 00:35:35.400
Produce versus Frozen produce and

698
00:35:35.400 --> 00:35:39.300
you do lose certain vitamin and nutrient content

699
00:35:38.300 --> 00:35:42.400
during the freezing process whether that

700
00:35:42.400 --> 00:35:45.400
translates to cope or not needs to be tested out.

701
00:35:48.300 --> 00:35:51.200
But at the end of the day the faster you can process

702
00:35:51.200 --> 00:35:52.600
it once it's harvested.

703
00:35:53.700 --> 00:35:56.200
The better off you are the longer it sits

704
00:35:56.200 --> 00:35:59.300
before you do the next step. What even

705
00:35:59.300 --> 00:35:59.600
if you're gonna

706
00:36:00.500 --> 00:36:03.400
Whether you sell it right, where do you sell it frozen whether you

707
00:36:03.400 --> 00:36:06.200
continue to to sell it fresh the sooner you

708
00:36:06.200 --> 00:36:09.200
can do that to harvest as a general rule of thumb

709
00:36:09.200 --> 00:36:10.300
the better off you are.

710
00:36:13.100 --> 00:36:13.400
awesome

711
00:36:14.300 --> 00:36:18.000
Bostock wants to know could you please share good? What

712
00:36:17.100 --> 00:36:20.800
is the best case scenario for the number of shelf

713
00:36:20.800 --> 00:36:23.300
life days if best practices are used?

714
00:36:24.400 --> 00:36:28.000
Yes, so we saw about 14

715
00:36:27.500 --> 00:36:29.700
days of shelf life.

716
00:36:31.700 --> 00:36:34.500
And I know there was some another question

717
00:36:34.500 --> 00:36:38.800
earlier that that depends on many factors. What are

718
00:36:38.800 --> 00:36:41.400
those factors? And what should people be thinking about in that

719
00:36:41.400 --> 00:36:42.300
that window?

720
00:36:43.800 --> 00:36:46.200
Yeah, so let's go

721
00:36:46.200 --> 00:36:48.600
back a little in the slides.

722
00:36:52.200 --> 00:36:53.300
Yeah, so in addition to

723
00:36:54.900 --> 00:36:57.600
oxygen access to oxygen we are

724
00:36:57.600 --> 00:36:59.700
thinking about all of these factors so

725
00:37:01.700 --> 00:37:04.500
You know, the more the the tissue is physically

726
00:37:04.500 --> 00:37:08.400
damaged that's going to affect respiration exposure to

727
00:37:08.400 --> 00:37:11.200
light. Probably just again, these are sort of

728
00:37:11.200 --> 00:37:14.200
a list that we made in collaboration with Q fresh based on what

729
00:37:14.200 --> 00:37:17.300
they know about produce. So

730
00:37:18.600 --> 00:37:21.300
Water temperatures at the time of harvest or also even

731
00:37:21.300 --> 00:37:24.700
like throughout the growing we have no idea how that affects

732
00:37:24.700 --> 00:37:27.200
the the kelp. We tried to measure that

733
00:37:27.200 --> 00:37:30.200
in our second year study by taking samples of

734
00:37:30.200 --> 00:37:33.400
the sugar kelp once every two weeks and we didn't notice a few

735
00:37:33.400 --> 00:37:36.200
huge change there but this is exactly why we need it to

736
00:37:36.200 --> 00:37:39.500
be replicated. We took help from one Farm over the course of one season,

737
00:37:39.500 --> 00:37:42.300
and yes, we took it over every two weeks. But you know,

738
00:37:42.300 --> 00:37:45.000
we would love to get more data on what that

739
00:37:45.200 --> 00:37:48.600
looks like in different locations air temperature. Obviously, we

740
00:37:48.600 --> 00:37:51.300
the Kelps coming out of the water and then it's sitting and

741
00:37:51.300 --> 00:37:54.300
in the air on your boat until you can get it someplace so

742
00:37:54.300 --> 00:37:55.100
that might impact it.

743
00:37:57.100 --> 00:38:01.300
Where the the tissue actually is from could

744
00:38:00.300 --> 00:38:01.900
affect it.

745
00:38:02.700 --> 00:38:05.300
Also, if you if you've done anything else to it, if you've watched

746
00:38:05.300 --> 00:38:09.300
it or blanched it, I think just going back to Jeff's point

747
00:38:08.300 --> 00:38:11.900
about like this is the this is alive like

748
00:38:11.900 --> 00:38:14.000
when you get oysters out of the water, it's kind of

749
00:38:14.400 --> 00:38:17.500
obvious that it's alive. But but if you think of sugar kelp

750
00:38:17.500 --> 00:38:20.100
as a thing that is still alive and you're

751
00:38:20.100 --> 00:38:23.200
trying to keep it alive for as long as possible. I think

752
00:38:23.200 --> 00:38:26.400
that's a helpful like heuristic for thinking about like is

753
00:38:26.400 --> 00:38:29.300
this thing gonna this thing that I'm doing to it is this gonna

754
00:38:29.300 --> 00:38:32.300
make it last longer or is it gonna shorten that shelf life? Just

755
00:38:32.300 --> 00:38:34.600
think about like if you had a flower or a

756
00:38:35.700 --> 00:38:38.100
Yeah, or lettuce, what would you

757
00:38:38.100 --> 00:38:38.100
do?

758
00:38:41.300 --> 00:38:45.000
Awesome. Steve has a kind of follow on to that. So he

759
00:38:44.100 --> 00:38:47.600
says that his buyer is driving down from Maine. Once he

760
00:38:47.600 --> 00:38:50.400
Harvest with a refrigerated truck and he's been trying to find a local business to

761
00:38:50.400 --> 00:38:53.300
use Refrigeration in case the truck breaks

762
00:38:53.300 --> 00:38:56.400
down or whatever. But what would the optimal temperature would farmers

763
00:38:56.400 --> 00:39:01.100
want to store their? Kelp at in that fridge also a

764
00:39:00.100 --> 00:39:02.700
great question. So right now,

765
00:39:03.800 --> 00:39:06.900
The guidance coming from from sea

766
00:39:06.900 --> 00:39:09.700
Grant is that we want to be looking at 41 degrees or

767
00:39:09.700 --> 00:39:12.200
lower and that's in part because

768
00:39:12.200 --> 00:39:15.800
of the contamination risk with with shellfish with with

769
00:39:15.800 --> 00:39:18.700
biofouling. So if you are kelp

770
00:39:18.700 --> 00:39:21.200
were to have some, you know, snail or something else

771
00:39:21.200 --> 00:39:24.800
on it, and then that is stored outside,

772
00:39:24.800 --> 00:39:27.500
you know warmer than 41 degrees that could

773
00:39:27.500 --> 00:39:30.100
potentially cause food safety issues for your product Downstream.

774
00:39:32.200 --> 00:39:35.100
If it were just up to the kelp itself without thinking about

775
00:39:35.100 --> 00:39:38.400
biophile, there might be other temperatures that are slightly warmer that

776
00:39:38.400 --> 00:39:42.100
would be better but that's not something we've tested in

777
00:39:41.100 --> 00:39:44.600
the past year studies and we are hoping to do tests

778
00:39:44.600 --> 00:39:46.000
on that this coming season.

779
00:39:47.500 --> 00:39:50.200
The other thing that I can add to get again, this is

780
00:39:50.200 --> 00:39:51.700
this it's not killed.

781
00:39:52.500 --> 00:39:55.300
But it's possible that people will start looking

782
00:39:55.300 --> 00:39:57.700
at tilt more like leafy green products.

783
00:39:58.400 --> 00:40:01.800
By law leafy greens have to be kept below 41

784
00:40:01.800 --> 00:40:04.800
and a half degrees Fahrenheit. Okay from a

785
00:40:04.800 --> 00:40:07.500
food safety standpoint. So that hasn't and that's

786
00:40:07.500 --> 00:40:11.200
an FDA regulation that hasn't translated just

787
00:40:10.200 --> 00:40:13.300
seaweed yet, but you could

788
00:40:13.300 --> 00:40:16.200
see where people would sort of look at it like that. So I

789
00:40:16.200 --> 00:40:19.100
think that 41 41 and a half good number.

790
00:40:23.500 --> 00:40:26.300
We have to interesting question after Cooling and he said were

791
00:40:26.300 --> 00:40:29.500
any Harvest handling processing methods looked at which explicitly avoid

792
00:40:29.500 --> 00:40:32.800
cooling the kelp unfortunately, the lca's our

793
00:40:32.800 --> 00:40:35.500
lifecycle analyzes out there today show that cooling indoor

794
00:40:35.500 --> 00:40:38.500
icing the kelp effectively completely and does the climate benefit of

795
00:40:38.500 --> 00:40:41.300
growing it IE the cooling process even for a fairly

796
00:40:41.300 --> 00:40:44.500
short time emits more greenhouse gases than the kelpkin sequester

797
00:40:44.500 --> 00:40:45.400
during its whole lifetime.

798
00:40:46.600 --> 00:40:49.100
Eric I saw you responded to that one in the chat

799
00:40:49.100 --> 00:40:50.600
you want to chime in?

800
00:40:51.700 --> 00:40:54.100
Yeah, I briefly answered that. Um, this is

801
00:40:54.100 --> 00:40:57.400
this was not part of this study, but I have looked at um,

802
00:40:57.400 --> 00:41:00.900
and it also wasn't sugar. Kelp. It was it was I

803
00:41:00.900 --> 00:41:03.500
can't remember off top my head was either. Oh go go or

804
00:41:03.500 --> 00:41:06.400
dose and we looked at various

805
00:41:06.400 --> 00:41:09.200
temperatures. So at the time we didn't know, you know,

806
00:41:09.200 --> 00:41:12.100
whether cold or hot or warmer, and we wanted

807
00:41:12.100 --> 00:41:13.700
to look at the effects so we actually did test.

808
00:41:14.700 --> 00:41:17.700
36 42 50 and

809
00:41:17.700 --> 00:41:22.100
62, I believe in that test that I did and essentially, you

810
00:41:20.100 --> 00:41:23.400
know, the higher the temperature you go

811
00:41:23.400 --> 00:41:26.400
the more shelf life you lose in the the effects can

812
00:41:26.400 --> 00:41:29.500
be quite drastic. So the difference between 36 degrees

813
00:41:29.500 --> 00:41:32.400
storage and 62 degree storage was about

814
00:41:32.400 --> 00:41:35.400
10 days. So we got closer to 13 14 days at

815
00:41:35.400 --> 00:41:38.200
that colder temperature and once you kept it

816
00:41:38.200 --> 00:41:42.300
at 62 a lot of it was micro-driven and

817
00:41:41.300 --> 00:41:44.400
off odor driven and that product

818
00:41:44.400 --> 00:41:47.400
went bad much earlier three four five days post

819
00:41:47.400 --> 00:41:47.900
Harvest.

820
00:41:52.900 --> 00:41:55.600
With them the greatest

821
00:41:55.600 --> 00:41:58.700
I saw that you answered this but there have been a couple questions about the

822
00:41:58.700 --> 00:42:01.600
if we could all expand on the map packaging

823
00:42:01.600 --> 00:42:04.300
and what recommended for what

824
00:42:04.300 --> 00:42:06.700
type of product is this fresh dried or Frozen.

825
00:42:11.500 --> 00:42:12.200
Yeah, if you want to handle that.

826
00:42:15.400 --> 00:42:18.400
Sorry, I was just gonna say that that it is designed for fresh.

827
00:42:18.400 --> 00:42:21.400
We did not look at it with

828
00:42:21.400 --> 00:42:24.300
frozen or dried because

829
00:42:24.300 --> 00:42:27.100
at that point your kelp is no longer breathing in those other

830
00:42:27.100 --> 00:42:30.500
situations. And so the idea of the the

831
00:42:30.500 --> 00:42:33.200
concept with this packaging is that there are

832
00:42:33.200 --> 00:42:36.600
there is a material that the packaging is

833
00:42:36.600 --> 00:42:39.300
made out of which was selected specifically for sugar

834
00:42:39.300 --> 00:42:42.700
kelp, but then there's all these perforations so like literal actual holes.

835
00:42:42.700 --> 00:42:45.100
And if you go to the next time you go to the grocery store, if you

836
00:42:45.100 --> 00:42:48.500
look in your prepare in your packaged produce section,

837
00:42:48.500 --> 00:42:52.000
look for the holes, like you'll notice that depending on

838
00:42:51.300 --> 00:42:54.300
what type of product is there. There are

839
00:42:54.300 --> 00:42:57.400
different sizes of holes in the packaging. And so those holes

840
00:42:57.400 --> 00:43:00.300
are intended to let the let the

841
00:43:00.300 --> 00:43:04.200
kelp breathe at the rate that is ideal

842
00:43:03.200 --> 00:43:04.900
for it to

843
00:43:06.300 --> 00:43:09.500
stay alive, but not use up

844
00:43:09.500 --> 00:43:10.700
all its glucose too fast.

845
00:43:11.900 --> 00:43:14.200
Just absolutely and this is where it can

846
00:43:14.200 --> 00:43:17.600
get a little confusing because there's two definitions

847
00:43:17.600 --> 00:43:20.600
of modified atmosphere packaging and it depends

848
00:43:20.600 --> 00:43:22.500
on the product that your Packaging.

849
00:43:23.300 --> 00:43:26.400
If your packaging a dried product or

850
00:43:26.400 --> 00:43:31.300
for instance in the meat industry or in the

851
00:43:30.300 --> 00:43:33.100
cheese industry and a lot of other

852
00:43:33.100 --> 00:43:36.800
more shell stable products modified atmosphere packaging means

853
00:43:36.800 --> 00:43:39.700
you get all of the oxygen out you pack

854
00:43:39.700 --> 00:43:42.700
it in a barrier package and you keep the oxygen out.

855
00:43:43.400 --> 00:43:47.300
Modified atmosphere packaging for fresh produce which

856
00:43:46.300 --> 00:43:49.700
seaweed falls under the kelp

857
00:43:49.700 --> 00:43:52.700
falls under is a modified atmosphere

858
00:43:52.700 --> 00:43:55.200
packaging that you're bringing the

859
00:43:55.200 --> 00:43:58.300
oxygen level down, but you're not bringing it down

860
00:43:58.300 --> 00:43:58.900
to zero.

861
00:43:59.800 --> 00:44:02.300
So you have to be a little bit careful when you're

862
00:44:02.300 --> 00:44:05.200
talking about modified atmosphere packaging. I mean,

863
00:44:05.200 --> 00:44:08.600
the scientific definition of modified atmosphere packaging

864
00:44:08.600 --> 00:44:11.800
is anything inside the package that is

865
00:44:11.800 --> 00:44:14.900
not 21.7% oxygen 300

866
00:44:14.900 --> 00:44:17.300
parts per million carbon, dioxide and

867
00:44:17.300 --> 00:44:20.800
72.8% everything else if you

868
00:44:20.800 --> 00:44:23.800
have something other than that, which is air

869
00:44:23.800 --> 00:44:26.600
if you have something other than that inside your

870
00:44:26.600 --> 00:44:29.300
pocket package by definition, you have a modified

871
00:44:29.300 --> 00:44:30.400
atmosphere package.

872
00:44:30.900 --> 00:44:34.500
Modified atmosphere packaging for cheese

873
00:44:33.500 --> 00:44:36.700
and meat and even certain

874
00:44:36.700 --> 00:44:40.200
fish and shellfish is significantly different

875
00:44:39.200 --> 00:44:42.700
than modified atmosphere packaging

876
00:44:42.700 --> 00:44:45.500
for produce the kelp project

877
00:44:45.500 --> 00:44:49.800
and the slide that you see up there is specifically

878
00:44:48.800 --> 00:44:51.700
modified atmosphere packaging

879
00:44:51.700 --> 00:44:54.600
for something that's living and breathing

880
00:44:54.600 --> 00:44:56.900
and would be more produce light.

881
00:44:58.500 --> 00:44:59.500
If that clarifies it.

882
00:45:00.300 --> 00:45:03.400
And yeah, and I'd one more thing to that which is that we were trying

883
00:45:03.400 --> 00:45:04.300
to be really careful.

884
00:45:06.500 --> 00:45:09.800
to make this packaging fall

885
00:45:09.800 --> 00:45:10.300
under

886
00:45:11.300 --> 00:45:13.200
a farm activity and

887
00:45:19.700 --> 00:45:20.400
We just lost.

888
00:45:21.500 --> 00:45:24.300
I'm sure she was working on coming back in but in the meantime, I'll

889
00:45:24.300 --> 00:45:27.100
skip over and maybe Jeff or Eric. You can

890
00:45:27.100 --> 00:45:31.000
answer does the map packaging is it typically petro-based or

891
00:45:30.300 --> 00:45:31.900
based from Plastics?

892
00:45:33.200 --> 00:45:36.700
So traditionally if you look at modified atmosphere packaging for

893
00:45:36.700 --> 00:45:38.200
fresh produce when it started.

894
00:45:38.900 --> 00:45:41.500
Really really strongly in the late 80s.

895
00:45:41.500 --> 00:45:44.900
It was all conventional petroleum based that

896
00:45:44.900 --> 00:45:47.200
is changed now still quite a

897
00:45:47.200 --> 00:45:51.600
bit of it is globally but there's also biopolymers.

898
00:45:50.600 --> 00:45:54.200
There's also some

899
00:45:53.200 --> 00:45:56.400
non-plat, you know, so by a

900
00:45:56.400 --> 00:45:59.800
polymer is like a pla or PBA and

901
00:45:59.800 --> 00:46:03.000
there's a whole bunch of different ones that are Plastics that

902
00:46:02.400 --> 00:46:05.900
are made from biological products.

903
00:46:05.900 --> 00:46:08.600
The one that everybody knows and everybody uses

904
00:46:08.600 --> 00:46:11.700
every day, but doesn't really realize it's a biopolymer

905
00:46:11.700 --> 00:46:12.900
is cellophane.

906
00:46:13.400 --> 00:46:17.000
Cellophane is made from wood. So technically it

907
00:46:16.200 --> 00:46:20.000
is a biopolymer and it's one of the oldest Plastics

908
00:46:19.200 --> 00:46:22.700
in the world. So and and there

909
00:46:22.700 --> 00:46:25.600
even fiber options now the gas

910
00:46:25.600 --> 00:46:28.900
which is sugar cane husks. So they're

911
00:46:28.900 --> 00:46:31.400
a lot more options available now and there's more

912
00:46:31.400 --> 00:46:35.000
coming on almost every day that it

913
00:46:34.200 --> 00:46:37.100
does not necessarily mean it has to

914
00:46:37.100 --> 00:46:40.100
be a conventional petroleum based polymer.

915
00:46:42.500 --> 00:46:44.000
Great grateful up. Thank you for that.

916
00:46:45.300 --> 00:46:49.000
And I saw that this question was Eric you you got to Bowen's

917
00:46:48.100 --> 00:46:51.200
question, but I thought it was worth repeating for

918
00:46:51.200 --> 00:46:54.200
the group just because I think it makes a good point how bad for the

919
00:46:54.200 --> 00:46:57.900
quality would it be to have the kelp and a highly oxygen constrained environment

920
00:46:57.900 --> 00:47:00.700
for a short span of time while harvesting

921
00:47:00.700 --> 00:47:03.800
so 30 to 60 minutes and then get it back into

922
00:47:03.800 --> 00:47:07.300
an oxygenated environment for further processing Eric.

923
00:47:06.300 --> 00:47:09.100
Did you want to repeat that answer?

924
00:47:12.200 --> 00:47:15.900
Um, yeah, hold on the second. That's one

925
00:47:15.900 --> 00:47:16.400
of the answer, right?

926
00:47:17.900 --> 00:47:20.400
Yeah, you said it takes time for the O2 to change short periods.

927
00:47:20.400 --> 00:47:23.700
Should not have okay. Yeah, that's right. Yeah, I

928
00:47:23.700 --> 00:47:26.500
mean short-term periods. So changing out

929
00:47:26.500 --> 00:47:29.900
to inside of a container is not a really rapid

930
00:47:29.900 --> 00:47:32.600
process. It takes most times

931
00:47:32.600 --> 00:47:35.200
kind of depending on the volume of the container. They were not

932
00:47:35.200 --> 00:47:39.700
a product the respiration rate of the product to take somewhere between you

933
00:47:38.700 --> 00:47:41.600
know, three and five days to reach

934
00:47:41.600 --> 00:47:44.600
me delivery. So putting something like that in

935
00:47:44.600 --> 00:47:47.600
a constrained environment for very short period of time would start

936
00:47:47.600 --> 00:47:50.400
to change the O2 but it wouldn't change it very

937
00:47:50.400 --> 00:47:51.700
much if I go from say

938
00:47:52.600 --> 00:47:55.300
21% that we're breathing right now to maybe

939
00:47:55.300 --> 00:47:58.400
18 19 percent so you can actually even push it

940
00:47:58.400 --> 00:48:01.100
a little bit further if you wanted to and especially if

941
00:48:01.100 --> 00:48:05.300
you're monitoring that using a an O2 CO2 headspace

942
00:48:04.300 --> 00:48:07.300
monitor, that'd be one way to assure

943
00:48:07.300 --> 00:48:09.100
that but it should be absolutely no problem.

944
00:48:10.800 --> 00:48:13.000
That's interesting. Is that that kind of opens up

945
00:48:13.300 --> 00:48:15.300
more possibilities for the farmer on the boat right there?

946
00:48:17.200 --> 00:48:20.300
Were these options might be a little bit more constrained? Yeah, the what

947
00:48:20.300 --> 00:48:23.700
we found is the bigger for those short periods

948
00:48:23.700 --> 00:48:26.400
of time when you're putting it into kind of

949
00:48:26.400 --> 00:48:29.500
an overloaded bin. It is temperature and

950
00:48:29.500 --> 00:48:32.200
heat load. So once you pull it from the water,

951
00:48:32.200 --> 00:48:35.300
then you're looking at well, what's the

952
00:48:35.300 --> 00:48:38.300
ambient temperature? And how long is it stored directly in the Sun and

953
00:48:38.300 --> 00:48:41.300
in some of those factors which can boost the heat inside of

954
00:48:41.300 --> 00:48:44.700
the system which can have kind of more drastic effects

955
00:48:44.700 --> 00:48:47.100
than just simply changing the O2 and those early

956
00:48:47.100 --> 00:48:47.400
stages.

957
00:48:50.100 --> 00:48:50.400
Great.

958
00:48:51.300 --> 00:48:54.700
I'm standing there have been a couple questions. Krista asked

959
00:48:54.700 --> 00:48:57.300
a question about if this study looked at the effects

960
00:48:57.300 --> 00:49:00.700
of a freshwater rinse, which we know that it didn't necessarily

961
00:49:00.700 --> 00:49:03.300
but can you speak there were kind of follow-up questions on that

962
00:49:03.300 --> 00:49:06.300
in terms of would a freshwater rinse cause

963
00:49:06.300 --> 00:49:10.900
blistering to the kelp what would implications of that be and interest?

964
00:49:09.900 --> 00:49:12.100
Yeah interested if you want to

965
00:49:12.100 --> 00:49:12.400
comment on that.

966
00:49:13.500 --> 00:49:16.200
Yeah, and I thought thank you Michael for jumping in on

967
00:49:16.200 --> 00:49:19.800
that one. The advice right now

968
00:49:19.800 --> 00:49:22.400
is to not rinse the

969
00:49:22.400 --> 00:49:25.300
kelp in freshwater and different help has different

970
00:49:25.300 --> 00:49:28.300
reactions to this. But but in general it is not

971
00:49:28.300 --> 00:49:32.200
good to rinse with fresh water. If some folks

972
00:49:31.200 --> 00:49:34.300
who are blanching they are blanching

973
00:49:34.300 --> 00:49:37.400
with fresh water, but the blanches already changing

974
00:49:37.400 --> 00:49:40.500
so much about the kelp that it's not it's not Apples

975
00:49:40.500 --> 00:49:43.500
to Apples. So yeah in general you want to actually protect

976
00:49:43.500 --> 00:49:46.500
your kelp from fresh water. So you you wouldn't even ideally want

977
00:49:46.500 --> 00:49:49.300
to harvest in the rain and you would want to cover your

978
00:49:49.300 --> 00:49:52.500
kelp to make sure it doesn't get splashed with with any fresh

979
00:49:52.500 --> 00:49:52.700
water.

980
00:49:54.500 --> 00:49:58.600
And sort of going off that I know that in recent conversations

981
00:49:57.600 --> 00:50:01.200
Sam you have recommended folks do

982
00:50:00.200 --> 00:50:03.400
use a blanching method to

983
00:50:03.400 --> 00:50:06.500
reduce the iodine content and kelp so can you

984
00:50:06.500 --> 00:50:09.200
speak to the iodine content of fresh kelp and and any of

985
00:50:09.200 --> 00:50:11.000
these practices do they impact that at all?

986
00:50:12.300 --> 00:50:15.700
Yeah, so the practice is the storage and post-service

987
00:50:15.700 --> 00:50:18.500
handling things that we studied with with just like

988
00:50:18.500 --> 00:50:21.500
holding it in different conditions. Those should not have any effect

989
00:50:21.500 --> 00:50:24.300
on iodine at all. We would not expect them to at least.

990
00:50:25.500 --> 00:50:27.700
That being said we didn't look at it. So we don't know for sure.

991
00:50:29.700 --> 00:50:33.000
There is a great paper out there very thorough

992
00:50:32.400 --> 00:50:36.300
on blanching to reduce and

993
00:50:35.300 --> 00:50:39.400
control iodine that showed that blanching sugar.

994
00:50:39.400 --> 00:50:42.300
Kelp pretty reliably brings it down to 12% of

995
00:50:42.300 --> 00:50:45.300
what the what it is normally and that's

996
00:50:45.300 --> 00:50:48.200
great news because yeah Brown macro algae

997
00:50:48.200 --> 00:50:51.300
does have really high levels of iodine and that is a concern.

998
00:50:52.400 --> 00:50:55.400
Among Regulators about whether you know

999
00:50:55.400 --> 00:50:58.200
consumption of it and and how how we

1000
00:50:58.200 --> 00:51:02.400
can make sure it's safe for people to eat. So obviously seaweeds have

1001
00:51:02.400 --> 00:51:02.800
been a part of

1002
00:51:03.700 --> 00:51:06.000
various cultures diets for

1003
00:51:06.400 --> 00:51:10.200
thousands and thousands of years and we live in 2023 in

1004
00:51:10.200 --> 00:51:13.600
the United States of America. And so there are regulations that we

1005
00:51:13.600 --> 00:51:16.100
need to be aware of and and kind of

1006
00:51:17.400 --> 00:51:19.100
develop processes to address

1007
00:51:22.900 --> 00:51:25.100
Thank you. We are coming up to the top of the hours. I

1008
00:51:25.100 --> 00:51:28.300
think. Oh, maybe one or two more questions some of these the

1009
00:51:28.300 --> 00:51:31.200
remaining questions have to do more with sort of

1010
00:51:31.200 --> 00:51:34.100
the composition of kelp than necessarily. The poster is handling.

1011
00:51:34.100 --> 00:51:37.500
But Brandon asks speaking of testing. Does anyone

1012
00:51:37.500 --> 00:51:40.700
have a COA with mineral protein and amino counts

1013
00:51:40.700 --> 00:51:43.100
in the kelp when harvested and then about 10 days later

1014
00:51:43.100 --> 00:51:46.400
on another COA to have some idea of measurement

1015
00:51:46.400 --> 00:51:47.500
of degradation.

1016
00:51:50.400 --> 00:51:52.400
We did not do that. We did not look at that.

1017
00:51:53.800 --> 00:51:56.400
I don't know. I mean again, I don't know how useful it

1018
00:51:56.400 --> 00:51:59.400
is if you guys are interested in the produce perspective. I'm sure Jeff and Eric

1019
00:51:59.400 --> 00:52:02.900
know a bit about how nutrients degrade over time. I I

1020
00:52:02.900 --> 00:52:05.900
think you know, it's not a direct we can't

1021
00:52:05.900 --> 00:52:08.200
necessarily assume that everything that happens in produce

1022
00:52:08.200 --> 00:52:11.300
happens in sugarcult, but I think it can help to understand

1023
00:52:11.300 --> 00:52:12.000
what

1024
00:52:12.800 --> 00:52:15.200
happens in other products so that we can look to see

1025
00:52:15.200 --> 00:52:17.000
if they happen in sugarcope as well.

1026
00:52:17.900 --> 00:52:18.700
Jeff go ahead.

1027
00:52:19.800 --> 00:52:23.300
So there is a degradation the

1028
00:52:22.300 --> 00:52:26.100
longer you and again, I think it's very

1029
00:52:25.100 --> 00:52:28.800
important to reiterate this. What I'm going to about to

1030
00:52:28.800 --> 00:52:31.900
talk about is fresh produce. There is not necessarily

1031
00:52:31.900 --> 00:52:34.800
a direct relationship to go.

1032
00:52:34.800 --> 00:52:37.800
We haven't tested that so we don't know there

1033
00:52:37.800 --> 00:52:40.800
is at around fresh produce.

1034
00:52:40.800 --> 00:52:42.200
It's produce dependent.

1035
00:52:42.900 --> 00:52:45.400
That the produce does

1036
00:52:45.400 --> 00:52:48.200
degrade over time the nutrient level and

1037
00:52:48.200 --> 00:52:48.700
whatnot.

1038
00:52:49.500 --> 00:52:51.400
but the general feeling was

1039
00:52:52.600 --> 00:52:55.500
even at that degraded level at the

1040
00:52:55.500 --> 00:52:58.800
very tale into shelf life. You're still

1041
00:52:58.800 --> 00:53:01.500
getting more health benefits from eating the produce

1042
00:53:01.500 --> 00:53:02.600
than not eating it.

1043
00:53:03.300 --> 00:53:06.700
So if if a fresh and again, I'm speaking fresh

1044
00:53:06.700 --> 00:53:07.400
cut produce.

1045
00:53:07.900 --> 00:53:10.300
If a fresh cut produce in a

1046
00:53:10.300 --> 00:53:13.400
bag is going to or tray is going

1047
00:53:13.400 --> 00:53:15.800
to cause you to eat more leafy greens.

1048
00:53:16.900 --> 00:53:19.600
Keep doing it because it's better than not eating

1049
00:53:19.600 --> 00:53:23.100
them at all. Is there a slight degradation dependent

1050
00:53:22.100 --> 00:53:24.500
upon product? Yes, there is.

1051
00:53:27.800 --> 00:53:30.800
Very similarly related question to that

1052
00:53:30.800 --> 00:53:33.200
Jeff. Was that Derek wanted to know how much of

1053
00:53:33.200 --> 00:53:36.300
the nutrient value would be lost with drying or powdering the

1054
00:53:36.300 --> 00:53:39.000
kelp even if it's used very shortly thereafter.

1055
00:53:41.700 --> 00:53:44.200
I'm not I'm not equipped to

1056
00:53:44.200 --> 00:53:47.600
answer that. I know that there is a reduction in produce

1057
00:53:47.600 --> 00:53:50.500
as well. But I'm

1058
00:53:50.500 --> 00:53:54.100
Eric. Maybe you are but I'm not qualified to

1059
00:53:53.100 --> 00:53:54.500
answer that question.

1060
00:54:01.400 --> 00:54:03.500
Something none of us are qualified together.

1061
00:54:05.400 --> 00:54:08.200
We have one more question in the queue. And so let's let's

1062
00:54:08.200 --> 00:54:11.300
try and hit it boy and asks, has

1063
00:54:11.300 --> 00:54:14.300
anyone looked at high nitrogen modified atmosphere inside the package

1064
00:54:14.300 --> 00:54:16.300
with the kelp to extend shelf life.

1065
00:54:17.200 --> 00:54:20.300
We did not look at that because again the goal.

1066
00:54:20.300 --> 00:54:24.200
This is what I was saying when I when my computer cut out the goal

1067
00:54:23.200 --> 00:54:26.800
was really to design a packaging that was

1068
00:54:26.800 --> 00:54:29.300
very minimal in terms of the requirements for

1069
00:54:29.300 --> 00:54:33.200
the farmer. We wanted anyone to be able to like all

1070
00:54:32.200 --> 00:54:35.300
we all you have to buy to make this

1071
00:54:35.300 --> 00:54:38.300
modified Atmos packaging work is you need

1072
00:54:38.300 --> 00:54:41.200
to buy the bags and you need to seal it somehow with it with a

1073
00:54:41.200 --> 00:54:44.500
heat sealer and we had three different options that kind of like the most

1074
00:54:44.500 --> 00:54:47.700
basic hand operated model all the way up to a processing

1075
00:54:47.700 --> 00:54:50.500
line. So if you were to introduce nitrogen to

1076
00:54:50.500 --> 00:54:54.200
that, then you are definitely entering processing territory. And

1077
00:54:53.200 --> 00:54:56.300
that is probably not then then you

1078
00:54:56.300 --> 00:54:59.600
get into needing to have a food safe, you know

1079
00:54:59.600 --> 00:55:02.000
as a certified facility and all kinds of

1080
00:55:02.200 --> 00:55:06.500
other stuff. So we were really looking for something that we thought might qualify

1081
00:55:05.500 --> 00:55:09.300
as an on-farm activity essentially,

1082
00:55:08.300 --> 00:55:11.000
so no we did not look at that.

1083
00:55:13.300 --> 00:55:16.100
Awesome. Thanks Sam. All right, we are at the

1084
00:55:16.100 --> 00:55:19.500
top Tower. So I'm gonna close us off. I do want to just quickly put

1085
00:55:19.500 --> 00:55:22.600
in a plug for the next upcoming farmer Forum

1086
00:55:22.600 --> 00:55:25.500
conversations. We have you can now sign up for these at

1087
00:55:25.500 --> 00:55:28.500
any time on the Hub. If you log into your the greenway

1088
00:55:28.500 --> 00:55:32.100
hub.greenwave.org and greenway.org/hub, sorry,

1089
00:55:31.100 --> 00:55:34.400
and there's an events

1090
00:55:34.400 --> 00:55:37.600
Tab and the upcoming conversation we have on February

1091
00:55:37.600 --> 00:55:40.400
1st is will be about the upgrades that green Vape

1092
00:55:40.400 --> 00:55:43.800
has recently made to its kelp Nursery system and sort of

1093
00:55:43.800 --> 00:55:46.600
adaptations to infrastructure and Technology across the

1094
00:55:46.600 --> 00:55:49.300
kilpatrice system more generally and then

1095
00:55:49.300 --> 00:55:52.900
February 9th will be back with the same Market development crew that

1096
00:55:52.900 --> 00:55:55.300
you know love and who will be joined by

1097
00:55:55.300 --> 00:55:58.800
Courtney White Myers at akua to talk about co-packing with

1098
00:55:58.800 --> 00:56:01.600
help. So if either of those conversations interest

1099
00:56:01.600 --> 00:56:04.600
you please sign up on the Hub and we look forward to seeing

1100
00:56:04.600 --> 00:56:07.200
you there and thank you all for such really great

1101
00:56:07.200 --> 00:56:10.400
questions and discussion that's was fantastic and a big thanks to

1102
00:56:10.400 --> 00:56:12.200
you fresh for joining us today.

1103
00:56:17.500 --> 00:56:19.600
Awesome. Have a great week everyone.