agriculture

Pretty interesting lecture series here. Trees are less fragile than grain-yielding grasses, not vulnerable to weeds. Nuts are a high-calorie food, so why not get bulk calories from nut-orchards instead of fields of broadacre crops?

• https://youtube.com/watch?v=CJpitVC4mzs
• https://youtube.com/watch?v=vINVDKJQKcU
• https://youtube.com/watch?v=N862oye1HTY
• https://youtube.com/watch?v=y1NB1O7sLMs
• https://youtube.com/watch?v=-ZzT6lF2Fjc
• https://youtube.com/watch?v=3PWjMQllTpo
• https://youtube.com/watch?v=IsW0icwlnuo
• https://youtube.com/watch?v=jpTXVWmv4I8
• https://youtube.com/watch?v=ErgHXYIJidU
• https://youtube.com/watch?v=E73t7DU6zZI

The paper looks at breadfruit, air potato, carob, chestnut, Enset, banana/plantain, sago palm, evergreen oak/encina, yeheb nut, Mayan breadnut, perennial beans, almonds, nuts, olives, coconuts, avocado, honey locust pods, and tahitian chestnut and their potential to replace part of the dependency on cereals.

It would be great if we could get more of our food from trees. It would reduce labour input and pesticide input.

You can also multitask the land better often with trees. My grandfather used to have cattle among breadfruit trees on his farm. Breadfruit is great stuff, lots of uses.

This article makes me want to take a closer look at Brazil nuts. Figure 3 shows a yield close to 5 t/ha and being nuts they are more nutritionally dense than boring starches. (There's a lecture series you can find on youtube called something like 'nuts as a staple food')

Then around Figure 4 they talk about how trees growing perennials would lock up more carbon than cropland.

Abstract

Ecological intensification of agro-ecosystems, based on the optimization of ecological functions such as biological pest control, to replace agrochemical inputs is a promising route to reduce the ecological footprint of agriculture while maintaining commodity production. However, the performance of organic farming, often considered as a prototype of ecological intensification, in terms of pest control remains largely unknown. Here, using two distinct meta-analyses, we demonstrate that, compared to conventional cropping systems, (i) organic farming promotes overall biological pest control potential, (ii) organic farming has higher levels of overall pest infestations but (iii) that this effect strongly depends on the pest type. Our study shows that there are lower levels of pathogen infestation, similar levels of animal pest infestation and much higher levels of weed infestation in organic than in conventional systems. This study provides evidence that organic farming can enhance pest control and suggests that organic farming offers a way to reduce the use of synthetic pesticide for the management of animal pests and pathogens without increasing their levels of infestation.

....melting ice sheets dumping vast quantities of freshwater into the ocean could change the currents of the Atlantic Ocean. The new modeling suggested, though, that complete collapse of the Atlantic Ocean’s current system is no longer “theoretical” and could occur much faster and more completely than anticipated.

....“We’ve done surprisingly little preparing for these kinds of shocks,” said Roni Neff, a professor at the Johns Hopkins School of Public Health and Center for a Livable Future. When Neff and her colleagues surveyed local governments on food system resilience, “the people that responded were those that were already thinking about this, and of those that responded only 10 percent considered their local jurisdiction to be prepared.”

....While the U.S. Department of Agriculture does have grants and loans for building a more resilient food system, that’s far from being a comprehensive plan for responding to giant climate shocks. “Some of us in academia have been trying to push the governmental agencies to take notice of this,” Puma said, “with little success to date.”

....study of New York City in 2016 estimated “the New York City food system holds roughly 4 to 5 days of regular consumption of food stock on average”—not an encouraging figure if one were to imagine incoming supply chains being disrupted.)

....there’s “low-hanging fruit” like fighting the increasing “consolidation of farmland,” reducing overreliance on fertilizer and pesticides, and being a little more skeptical of so-called smart agriculture: “If you’re introducing the use of drones into the agricultural system, that’s a new type of risk to take into account.”

hate the word "masterclass" but a great lecture nonetheless

Farm owners or workers mother fucker?

OWNERS OR WORKERS MOTHER FUCKER?!

cross-posted from: https://hexbear.net/post/1008490

(horrifying Lovecraftian entity shifting in 5d, lasers and holograms shifting in incomprehensible geometry as rice is threshed in ways that drive small minded western liberals insane) :scared:

Winter is over and things have gone great.

The broccoli is starting to get florets. They are a bit later than we were expecting but that's what happens when you live further from the equator. We've got some cabbages cauliflower and Korabi as well but they aren't quite as far along.

The first 2 clutches of chicks are getting their wing feathers. Pretty sure we got lots of boys. We managed to sell them all last season so fingers crossed. We've sent off almost 150 eggs for hatching and we were just starting this time last year.

The Garlic is going gangbusters with 4 more months to go. We had to freeze a few kilos from last season's harvest because they started to rot. Its kinda disappointing because we lost well over 5 kg but now we know how long it will last and how much fresh stuff we should keep for eating and thus how much of our harvest we can sell.

Our Parsley is going amazingly and the broad beans are just starting to flower.

Last seasons Pumpkins have ripened really well. We had to harvest them a bit early and we weren't sure how they'd but they have lots of pumpkin flavor and they aren't too sweet. (I find really sweet pumpkins ruin soups and things that are meant to be more savory)

We are still getting chillies and the odd capsicum from last years plants in our glass house and we've got some seedlings to relace the ones that didn't make it through the winter. and I'm in the process of building another glasshouse for our tomatoes.

Lots of work to do but barring some disaster the future is looking bright.

I spent most of yesterday and a bunch of the day before helping a baby Chicken get out of its shell. You aren't supposed to do that but it was over a day behind its siblings and hadn't been able to pop the shell.

It was cold and alone in the nest while mommy and her babies were running around. It would have died but my lady felt it wiggling in the egg. We could feel it tapping and hear its little chirps but it couldn't get out. We got a hot water bottle and made a wam nest for the egg in a beanie (toque for you Canucks) We figured it would die in the egg when its air sack ran out or maybe us helping could save it. So we shaved a tiny hole in the egg where it was tapping. Beanie, as we started to call it, wasn't going to die gasping.

We put the egg in with its momma overnight hoping she could handle the rest herself and momma would wake up with her last baby hatched.

Beanie wasn't out of her egg in the morning. The hole we made was much larger and we could see a little beak but the chick hadn't been able to spin around to "unzip." We brought her back inside into the beanie hot water bottle nest. We got a wet cloth to help keep the membranes in the egg from drying out and shrink wrapping around beanie. we did some more research and found someone who had performed the blasphemous procedure we were attempting. We chipped away bits of the shell being careful to not disturb the inner membrane as the chicks circular system is attached to it. The first little mistake made us slow down dramatically. I felt so bad as the little red spot grew and relived when it stopped growing. Once there was a large enough hole in the egg the membrane started to dry out as Beanie pulled all the blood out of it.

Beanie was kicking but but still seemed unable to get free for the egg. The membrane was too strong and too tight. So we got some warm water and a cotton tip and started rehydrating the membrane where Beanie was putting pressure. suddenly the membrane ripped. We kept moistening as beanies little feet and wings pushed out until finally we had an empty egg and a sweet little peeper.

We coddled her in her beany for the rest of the day worrying about whether her feet were messed up or if her feathers would fluff up properly. By the time all the other chooks were in bed she had fluffed up revealing her to be a beautiful golden girl. We put her with her mom and 10 siblings overnight because keeping her warm is hard work for people.

This morning she is still a bit slow compared to her siblings so she is hanging out with me and eating the crumbs off my shirt. She is happy and healthy and a pest.

The combined effects of the disruption of the Russian Revolution, which decreased the supply of wheat and other commodity crops, and World War I increased agricultural prices; this demand encouraged farmers to dramatically increase cultivation. For example, in the Llano Estacado of eastern New Mexico and northwestern Texas, the area of farmland was doubled between 1900 and 1920, then tripled again between 1925 and 1930. The agricultural methods favored by farmers during this period created the conditions for large-scale erosion under certain environmental conditions.

"large scale erosion" innocuous words for God's ongoing plagues and apocalypses in response to selfishness and greedy exploiting his creation

The widespread conversion of the land by deep plowing and other soil preparation methods to enable agriculture eliminated the native grasses which held the soil in place and helped retain moisture during dry periods. Furthermore, cotton farmers left fields bare during winter months, when winds in the High Plains are highest, and burned the stubble as a means to control weeds prior to planting, thereby depriving the soil of organic nutrients and surface vegetation.

bruh whats the deal with kulaks and lighting food on fire lol...typical demon praxis

The dust clouds blew all the way to Chicago, where they deposited 12 million pounds (5,400 tonnes) of dust. Two days later, the same storm reached cities to the east, such as Cleveland, Buffalo, Boston, New York City, and Washington, D.C. That winter (1934–1935), red snow fell on New England.

Red Snow in Lovecraft country

The economic effects persisted, in part, because of farmers' failure to switch to more appropriate crops for highly eroded areas. Because the amount of topsoil had been reduced, it would have been more productive to shift from crops and wheat to animals and hay. During the Depression and through at least the 1950s, there was limited relative adjustment of farmland away from activities that became less productive in more-eroded counties.

animals are of course essential to fertilizing soil, but its all about profit, not regenerating life

Some of the failure to shift to more productive agricultural products may be related to ignorance about the benefits of changing land use. A second explanation is a lack of availability of credit, caused by the high rate of failure of banks in the Plains states. Because banks failed in the Dust Bowl region at a higher rate than elsewhere, farmers could not get the credit they needed to obtain capital to shift crop production. In addition, profit margins in either animals or hay were still minimal, and farmers had little incentive in the beginning to change their crops.

Capital-intensive agribusiness had transformed the scene; deep wells into the aquifer, intensive irrigation, the use of artificial pesticides and fertilizers, and giant harvesters were creating immense crops year after year whether it rained or not. According to the farmers he interviewed, technology had provided the perfect answer to old troubles, such of the bad days would not return. In Worster's view, by contrast, the scene demonstrated that America's capitalist high-tech farmers had learned nothing. They were continuing to work in an unsustainable way, devoting far cheaper subsidized energy to growing food than the energy could give back to its ultimate consumers.

high tech DSA redditors at /r/neoliberal: "degrowth wants to make us poor, my comrades are Walmart and Monsanto, who are trying to feed the global poor by replacing natural soil ecology with sterile nanotechnology. We no longer have a need for bees, we can just use bee-drones you fucking eco-Stalinist"

"did you see the latest meme from Aphids on Threads? So funny lol" - 12 year old Maoist farmer child who has joined forces with the pests against bourgeois capitalism because they were radicalized by a social media front group.

So-called dairying ants have a mutualistic relationship with aphids, tending them for their honeydew and protecting them from predators.

he protecc, he snacc,

Aphids are among the most destructive insect pests on cultivated plants in temperate regions. In addition to weakening the plant by sucking sap, they act as vectors for plant viruses and disfigure ornamental plants with deposits of honeydew and the subsequent growth of sooty moulds. Because of their ability to rapidly increase in numbers by asexual reproduction and telescopic development, they are a highly successful group of organisms from an ecological standpoint.

"nooo you can't weaken my commodities! Middle class Karens won't buy these vegetables if they don't look perfect!" haha honeydew goes drippp

Control of aphids is not easy. Insecticides do not always produce reliable results, given resistance to several classes of insecticide and the fact that aphids often feed on the undersides of leaves. On a garden scale, water jets and soap sprays are quite effective. Natural enemies include predatory ladybugs, hoverfly larvae, parasitic wasps, aphid midge larvae, crab spiders, lacewing larvae, and entomopathogenic fungi. An integrated pest management strategy using biological pest control can work, but is difficult to achieve except in enclosed environments such as greenhouses.

"enclosed environments such as greenhouses" PRISON PLANET

starting at 118 minutes in

my mom is a schemer...she heard of someone doing starting a farm one time

classic mom behavior lol

we can't use a tractor, we're women!

Large tractors need strength, but you can get a small two wheel tractor which can be used by a single strong woman or two weaker ones. Women can build small farms

real estate as we know is crazy, we sold it at a higher price even though all the blueberries are dead, so I don't understand what happened, we sold it for more than what we bought it for. She was like "I put my family through hell, it was good, but it worked out we made money". She should be slapped on the wrist instead of rewarded

the Marxist dialectic of use value vs exchange value under financialized real estate investing

We don't know how to keep this alive, I'm gonna have to slit the throat of this cow as soon as we get it. You're pushing me to kill so many animals!

goats when they see their new owners are middle class Karens: :scared:

It’s been 33 years since an Iowa State University agronomist named Fred Blackmer thought he’d struck gold for Midwestern corn farmers. Using a fairly simple three-step method, Blackmer developed an analytical tool that could accurately tell farmers exactly how much fertilizer their fields needed to produce abundant harvests each season.

The analytics Blackmer perfected showed not only how much fertilizer the corn crops would need to meet production targets, but also exposed how much could be wasted. Blackmer ultimately determined that farmers were applying a staggering 500 million excess pounds of nitrogen each year, a practice that not only wasted farmers’ money but also wreaked havoc on the environment as the nitrogen not taken up by plants drained from farm fields to contaminate rivers, lakes and streams.

Despite what Blacker saw as obvious benefits to producers, not to mention the environment, his method failed to gain significant traction in farm country. Farmer allegiance to the excessive fertilizing practices pushed by the so-called “Big Ag” production industry and aligned academic institutions left Blackmer’s common sense approach on a shelf gathering dust. He died in 2006.

State and federal data now show that since 1990, nitrogen spread on fields in Iowa and nine other major U.S. corn-growing states has increased 26%, with more nitrogen than ever pouring off the land and into U.S. waters. Demand for corn is high, both to supply ethanol refineries and to feed industrial livestock operations that add to water contamination themselves through manure runoff, according to the U.S. Department of Agriculture.

In Iowa alone, according to state research, farmers apply about 2 billion pounds of commercial nitrogen annually to corn fields, and much of it is ending up in waterways that flow all the way to the Gulf of Mexico, worsening the conditions in a 6,500-square-mile “dead zone” where the waters are so oxygen-deprived that they can’t sustain marine life. Iowa contributes almost a third of the nitrogen scientists say causes the dead zone.

“Iowa is sort of ground zero for the interface between ag and environment,” said Matt Liebman, a former colleague of Fred Blackmer’s, who retired as a professor of agronomy at Iowa State University (ISU) in 2021.

“There’s a lot of money involved. The people who sell inputs and the people who process and distribute commodities, livestock and crops are very interested in making sure that the system is arranged so that money flows in particular ways,” Liebman said. “One side is real small and the other side is very well funded. It can get pretty ugly.”

In Iowa, as in other corn-growing states, many farmers often apply nitrogen in quantities not necessarily aligned with crop needs but in amounts designed to overload the soil in case heavy rains wash away needed nutrients. Farmers will apply fertilizer to fallow fields in fall when there is nothing growing, hoping the ground will absorb and hold on to the nutrients, and then spread fertilizer again on the same fields in the spring. The goal is to maximize yield – how much corn they can produce per acre.

A 2014 ISU farmer survey underscored how dependent growers are on over-applying fertilizer. “The perceived economic risks of under-application are high,” the survey reported. “These results likely reflect a reality that the practice of ‘insurance’ over-application is simply a part of staying in business.”

In contrast, Blackmer’s research showed that applying more fertilizer than plants needed had no effect on yield. “What we’ve found is that farmers can substantially reduce their average rates of fertilization and actually end up with higher yields,” he said in a 2002 interview with an Iowa media outlet.

Blackmer also recognized that over-fertilizing was causing an ecological calamity. “What we’re finding is some farmers can lose 70, 80 or 90% of what they put down. One of the most surprising things is many times these farmers don’t even know that they have lost it,” Blackmer added.

Blackmer’s “late spring nitrate test” was simple in concept. His test focused on one essential data point: the optimum amount of nitrogen in soil to grow the most corn. His science showed that optimum soil concentration is 20 to 25 parts per million.

Blackmer developed three steps to get there. First, he took soil samples from farm fields, which typically showed background nitrogen levels at under 10 parts per million. Second, he developed calculations to add fertilizer in precise amounts to increase soil nitrogen concentrations to the optimum level and sustain it to meet the farmers’ yield goal, whether it was 150, 200 or 250 bushels per acre.

Then he recruited farmers to apply a little bit of fertilizer at planting and a precisely measured volume of fertilizer at least 30 days later, when fast-growing plants were 6 to 12 inches tall. In most cases the test results indicated farmers should spread 60 pounds per acre to grow 150 bushels per acre, or as much as 80 pounds per acre to achieve 250 bushels per acre. Corn growers typically apply double that amount.

Among the farmers that experimented with Blackmer’s nitrate test was Larry Neppl, an Iowa corn grower, who saw first-hand that applying 60 pounds of nitrogen per acre on part of his crop translated to better production than applying double that amount.

“It told me we did not need that extra nitrogen,” Neppl said.

The amount of money wasted by farmers on unneeded fertilizer, at the current price of $1,100 per ton, is estimated at over $400 million annually.

But the over-fertilization of U.S. corn country is not only costly for farmers. The federal government has spent over $500 million since 1997 to reduce the expanse of the ocean dead zone that is fed in large part by the nitrogen contamination flowing from Iowa and the other Corn Belt states. States have spent billions of dollars more.

That same tide of nutrients is also expensive for local and state governments with fertilizer-related contamination affecting more than 7,000 drinking water wells in Iowa and an estimated 30,000 private wells in Minnesota, 42,000 in Wisconsin, and thousands more in Illinois, Nebraska, and Missouri. Corn Belt cities are forced to spend tens of millions of dollars and raise residential and business water rates to drill deeper wells or install and maintain nitrate removal and filtration systems to protect municipal drinking water.

There is also a cost to human health. The nitrates from the fertilizers also are implicated in the rising rates of cancer in the Corn Belt. In Nebraska, scientists have linked exposure to nitrates to a number of soft tissue malignancies. Nebraska has one of the highest rates of pediatric cancers in the U.S. Iowa announced in February that it now ranks second in the incidence of cancer, and is the only state where incidences increased from 2015 to 2019.

“The heart of what is causing all of this is a cropping system and an economy that is inherently polluting,” said Kamyar Enshayen, director of the Center for Energy and Environmental Education at the University of Northern Iowa. “It’s not something a conscientious farmer can fix. We have all these incentives coming in to keep doing more of this.”