• spud@sh.itjust.works
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            8 months ago

            the paper tries to quantify all the inputs and outputs for foods, but it fails to actually calculate either the actualy outputs (like non-food animal products), or the actual costs of the inputs (many of which would be waste products)

            if you total all the inputs that go into a product (the water, the carbon emissions, the land use, etc), then you can see what it would cost to produce it if you made no other products. but that’s not actually the environment in which meat dairy and eggs are produced.

            the most illustrative example is cotton. cotton is not a food. it is grown for textiles. it wrecks the soil and it is THIRSTY. after you harvest the cotton and separate the fiber from the stalk and seed, you have seed left over. way more seed than you need to replant. cottonseed can be and is pressed for oil, but it takes much less processing to mix it into cattle fodder. why should the water used to grow cotton count against the water inputs for beef and milk? it’s actually a conservation of resources. these industries are all interconnected, and trying to just put a singular value on every product in the absence of the context of its production is not actually useful in determining what would be ecologically responsible.

            • Skua@kbin.social
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              8 months ago

              The paper is a meta-analysis, it’s not trying to calculate those things at all. It’s collating and standardising the results of other studies doing that. To take Ridoutt et al 2011 as an example because it’s the first beef one that comes up in the dataset, regarding feedlots:

              In the feedlot subsystem, water and energy use was calculated using data reported in a benchmarking study of Australian beef cattle feedlots (Davis and Wiedemann 2009). The composition of the feedlot ration was based on detailed, multi-year records provided confidentially by a large feedlot operator. Consumptive water use associated with the production of each feed component was calculated using national statistics (ABS 2008a,2008b) and various CSIRO data sources (e.g. Ridoutt and Poulton 2010). The EcoInvent v2 database (http://www.ecoinvent.org) was the source of water use information for mineral supplements (<0.01% by mass). The feedlot operator also provided data on the transportation distances of the feed components which were used to calculate fuel use in transporting commodities to the feedlot.

              It’s depending on the work of the 1,530 source papers to calculate the inputs appropriately. You would know this if you had looked at the paper, so where did you get the idea that it is as you described?

                • Skua@kbin.social
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                  8 months ago

                  the paper tries to quantify all the inputs and outputs for foods, but it fails to actually calculate either the actualy outputs (like non-food animal products), or the actual costs of the inputs (many of which would be waste products)

                  Emphasis mine, of course. The remaining four-fifths of your comment focussed entirely on inputs too. The paper does not do this and never intended or claimed to. It collates the work of other papers that did it. Why tell such an obvious lie? Your comment is literally right there

    • Gormadt@lemmy.blahaj.zone
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      8 months ago

      That would also be a very nice comparison and honestly probably a better one given how different food have very different calorie densities.

      Now I’m really curious about calorie density of the various categories listed in the chart, I’m probably going to have to do some napkin math to get a small ball park.

      I know I won’t be anywhere close to the actual figure but I may be close enough to satisfy my curiosity.

      Edit: Thinking about it a bit though brings to mind that the calculations there would be incredibly difficult and would likely require a lot of averages.

      • vividspecter@lemm.ee
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        8 months ago

        You should probably take into account beneficial and harmful effects of each food type as well (including externalities such as healthcare costs), although that would be an even more difficult task.