- A third take on dog origins. Lock them all up in a small room and don’t let them out until they figure out a way to solve this. And more.
- Great new maps of deforestation. Same as the old maps? I’m confused.
- Ah, to be able to mash them up with crop wild relatives gap-maps! Or others, for that matter…
- Clear, balanced take on how to fix the food system. (And a great potted summary of why it is necessary to do so by the sainted Lawrence Haddad. The interviewer is not bad either.) Except maybe for the bit which sort of implies that the only way to improve crops is via GM. And for the other side…
- Bioversity comes up with a strategy for community seed banks in Limpopo and other areas of South Africa. Coincidentally, another CGIAR report on the same region, looking at wider food security issues. I wonder if the two could/should be mashed up? But really my main reason for linking to the second thing is to see how many people read the title as a plea for a return to old-fashioned cartography, as I did.
- Dual-purpose maize, shmaize. I just love that building.
- Latin American consortium looking for potatoes and wheat varieties adapted to new climatic conditions. Amazing that it is news, in a way.
- Global Tree Campaign launches new website. Sill no RSS feed though, that I can see. LATER: Here’s the feed, sorry to the GTC!
- Speaking of trees… Will agricultural intensification save tropical forests? Well, maybe. Demand elasticity comes into it, apparently. Dismal science indeed. I suppose those maps above come in useful for this kind of thing?
- In other news, the Middle Tennessee State University has a ginseng initiative.
- Teach a woman to aquaculture, improve her crop yields. No wait: Fish? We don’t need no stinking fish.
- 10 Ancient Grains to Watch. The usual suspects. This was pretty boring even when it was news.
Nibbles: Chocolate industry, Perennial grains, Digestibility gene, Potato in Africa, Maps
- Big chocolate to get bigger. What will it do to diversity?
- Gates Foundation funds perennial grains for Africa.
- Including sorghum, the perennial version of which may or may not include the latest magic bullet gene.
- Not including potato, though, which is also, however, being pushed in Africa.
- Great old maps of agricultural origins.
- And on the same subject, I can never resist etymology maps, especially of agrobiodiversity words.
Nibbles: Vilsack on ice, Genebank standards, Indigo, Sardinian food, Seeds of Time, Musa genome, Wild rice collecting, Palm oil, Markets
- Secretary of Agriculture tours Ft Collins genebank. With video goodness.
- Which genebank I’m sure follows the Genebank Standards for Plant Genetic Resources for Food and Agriculture. With video goodness.
- Prince of Wales sows organic rice. In white suit. With video goodness.
- The story of indigo. No video, but lots of photos.
- Sardinian blood soup. No video, but one photo. Which is more than enough.
- Wanna watch Seeds of Time? Here’s where. Includes much on Svalbard, of course. And a bit on USDA wild potato collecting. I plead the fifth.
- So there’s a second banana genome? Thankfully no video.
- “We are only using the tip of the iceberg.” Rice genetic resources, that is. Could easily have had a video.
- Face palm oil.
- Photo essay on the bazaars of Central Asia.
Nibbles: Panama disease, N2Africa, Trees and CC, CITES, Jordanian farmers and CC, ETC poster, Digitization, Wallace video, International Rice Genetics Symposium, Roots and tubers meet, Hybrid maize, Quinoa, Food Security, Israeli boars
- Panama comes to SE Asia. Banana people will understand. And will know what to do?
- Shucks, just missed the N2Africa project first phase results presentation shindig in Nairobi. All about the power and beauty of nitrogen-fixing legumes (geddit?). Jeremy wont let me link to the piece about the project that recently appeared on a well-known site, and he’s right, it’s largely content free. And you can find it if you really want to anyway.
- Climate change? Not a problem, for some plants (including wild relatives?), if there’s trees around. Well, kinda sorta. But it made you look, didn’t it? Are any of them on CITES? Consult the new handy dandy online thingy.
- Ah, but tell that to Abu Waleed and other Jordanian farmers.
- Who are the answer to etc Group’s question: Who will feed us?
- A botanical use for online gaming. Whatever next.
- Celebrating Alfred Wallace via animated video. And why not.
- You want more videos? Here’s a nice explanation of the difference between winter and spring wheat.
- Huge rice genetics meet is apparently a “hot bed of discussion”. For another couple of days. Let us know if you are party to any of that.
- No doubt the same could have been said about the recent 12th International Symposium of the International Society for Tropical Root Crops in Accra.
- Zambian families are better off nutritionally if they grow hybrid maize.
- A handy English translation of an all-consuming post about quinoa in Spanish. And check the photo of quinoa diversity!
- Gary Nabhan explains why “more biodiversity means more food security“.
- Israel’s wild boars are European. I’m biting right through my tongue here.
Cemeteries reveal the secrets of pre-agricultural prairie soil
If a picture were worth a thousand words I would stop right now. But it isn’t, so I can’t. An explanation:
Exhibit A, on the left, caricatures, but only a bit, the worldview of many of those responsible for funding and carrying out research into agricultural productivity. Exhibit B, on the right, a slightly more nuanced view, lifted from an article by Mary C. Scholes and Robert J. Scholes in this week’s Science. 1 Scholes and Scholes are commenting on a paper by Noah Fierer and his colleagues in the same issue, which specifically addresses the little label in the lower right: “Soil biodiversity”.
Fierer’s paper 2 asks what the effect of agriculture might have been on the microbial diversity of soils in the tallgrass prairie of North America. There’s not that much left now, but they managed to sample 31 sites, “found primarily in cemeteries or nature preserves”. And they subjected DNA from the samples to some high-throughput DNA sequencing and analysis. The bottom line conclusion is that tallgrass prairie soils are very complex and that this complexity would be expected to affect all sorts of soil cycles, especially nitrogen and carbon.
Scholes and Scholes put those results into context, pointing out that
We have forgotten the lesson of the Dust Bowl: Even in advanced economies, human well-being depends on looking after the soil. An intact, self-restoring soil ecosystem is essential, especially in times of climate stress.
The diversity that Fierer and his team uncovered is strongly linked to functional diversity, independently measured. Prairie soils are particularly rich in Verrucomicrobia, “bacteria specialized for low-nutrient conditions, [which] are lost from the cultivated soils, making the soils less able to supply nutrients other than those provided as fertilizer”. And that’s the key to the bigger picture. Scholes and Scholes point out that:
[I]mproved technology—including the unsustainably high use of fertilizers, irrigation, and plowing—provides a false sense of security.
We need to stop thinking simplistically about the role of inorganic fertilisers and start to consider the soil in which our food grows.
An agricultural soil ecosystem that more closely approximates the close and efficient cycling in natural ecosystems, and that also benefits from the yield increases made possible by biotechnology and inorganic fertilizers, is needed to increase agricultural production to the levels that will be required while minimizing its adverse effects. Integration of the insights, innovation, and best practice from agronomy, ecology, soil biology, chemistry, physics, plant breeding, and natural resource governance is the only viable route to both feeding the world and keeping it habitable.
In other words, we have to do it, but it isn’t going to be simple. Knowing a bit more about what makes prairie soils both productive and self-sustaining may help the process of restoring degrading lands and preventing future degradation.