- Rapid adaptive increase of amylase gene copy number in Indigenous Andeans. Indigenous Andean populations evolved exceptionally high copy numbers of the AMY1 salivary amylase gene, likely linked to long-term adaptation to starch-rich diets associated with potato domestication roughly 10,000 years ago.
- Horse genetics, archaeology, and the beginning of riding. Horse domestication was not a sudden genetic event beginning around 2200–2100 BCE, but a long and regionally varied process in which Indigenous Eurasian pastoralists progressively managed, rode, milked and selectively bred multiple horse lineages over many centuries, transforming mobility and social organization well before the rise of the dominant modern domestic horse lineage.
- Bridging biodiversity and food systems: A nationwide synthesis of non-conventional food plants (PANCs) in Brazil. Brazil’s non-conventional food plants (PANCs) and associated Indigenous and traditional knowledge could help build more diverse, climate-resilient and socially inclusive food systems while strengthening biodiversity conservation, rural livelihoods and public food programs.
- Indigenous Wisdom for a Changing World: Bridging Traditional Ecological Knowledge and Biodiversity Conservation. Sacred groves and other community-managed landscapes in central Ethiopia conserve high levels of biodiversity through Indigenous institutions, ritual practices and traditional ecological knowledge, suggesting that effective conservation depends on treating cultural stewardship systems as integral to ecological resilience rather than as secondary to scientific management.
- When Knowledge Isn’t Free: Legal and Ethical Imperatives of Protecting Indigenous Intellectual Property. There’s a persistent mismatch between Western intellectual-property regimes and Indigenous concepts of collective ownership, biocultural heritage and intergenerational custodianship of knowledge, and that’s unfair.
- Crediting and citing Indigenous Knowledges within research. Biodiversity conservation becomes more effective when Indigenous scientists and communities participate as equal partners rather than merely as local stakeholders or informants.
MLS spoiler alert
Remember that “A comprehensive analysis of the operations of the Multilateral System – Insights and key figures 2025” that we trailed a few months back? The official launch is on 22 May and you can follow along virtually.
LATER: And these are the key takeaways, according to the Plant Treaty secretariat…
A circleback of academies
To the Genebank Academy and Landscape Academy we should now add the Center for Plant Conservation’s Rare Plant Academy. I wonder if we can think of a collective noun for this proliferation? My initial suggestion is in the title.
Oh what a time to be alive.
Humble crop beats superfood
Two articles about the contrasting fortunes of Andean crops came out last week. They describe different sides of the same broad story: Indigenous agricultural systems are highly biodiverse and increasingly positioned as climate adaptation strategies, but they are also under pressure.
In Peru, potato farmers in places like the Parque de la Papa are actively conserving thousands of native potato varieties as a form of insurance. This is climate change adaptation: maintaining agrobiodiversity, preserving traditional knowledge, and using resilient crop varieties and farming practices to buffer against warming temperatures, erratic rainfall, and pest and disease pressure. The message is that crop diversity itself is a survival strategy, both ecological and cultural.
The recent history of quinoa in Bolivia shows the same system under a different kind of stress: global demand drove a commodity boom that incentivized monoculture expansion and mechanization, which in turn contributed to soil degradation, erosion and reduced resilience. Coming back from that is proving difficult.
Together, the two cases show that when Indigenous agroecosystems are treated as living repositories of diversity, they can enhance resilience, including to climate change; and that when they are pulled into boom-driven export specialization, that resilience can be undermined. The shared lesson, at least for me, is that climate adaptation in mountain agriculture depends on maintaining ecological and genetic diversity embedded in Indigenous land management systems.
A point that I suspect is highlighted in the book Andean Potatoes and Quinoa: Origin, Current Status and Recipes of Ancestral Crops, also recently announced.
Brainfood: Spatial data edition
- The ClimSat classification system—a global climate classification map based on long-term satellite-derived data. There’s a new global climate classification system in town, and it’s better ecologically than Köppen’s.
- The first global agricultural field boundary map at 10 m resolution. Combined with the above, we can now characterize the climate of every agricultural field in the world.
- GEM-Forest: A Global satellite EMbedding–based map of forests and tree crops for 2020. Do any of those fields have tree crops? And how far is the forest?
- Global annual cropland dynamics 2015–2024. The next time we map agricultural field boundaries, there will probably be more of them.
- Climate-induced range shifts support local plant diversity but don’t reduce extinction risk. Those new agricultural fields will be bad for wild plants.
- ‘SiteTool’: a ‘Shiny’ application for field site selection and evaluation. Cool new tool helps you select geographical sites based on ecological characteristics. Could be used to help decide where to collect or evaluate germplasm. Lots of opportunities for combining with some of the above, I suspect.
- Current and future potential of cassava (Manihot esculenta) in Southern Africa: a scoping review. An example of what you can do when you combine different types of spatial (and other data). The area suitable for cassava in Africa will increase, and there’s lots of scope for higher yields too. If we can combine datasets, soon we’ll know which specific fields to grow it in, for higher production, to protect wild biodiversity…
- Global and regional climate modes modulate armed conflict risk. …and to mitigate the risk of conflict.