The seeds of tropical fodder grass development

The usual way wild species are used in breeding is to improve their domesticated relatives. But in Bajra–Napier Hybrids (BNH), it’s the crop that is used to improve the wild, or at least wilder, relative.

BNH are pretty important forages in tropical and subtropical livestock systems, but you don’t hear too much about them other than from specialists. I certainly hadn’t, until a recent social media blitz from ICRISAT.

They are made by crossing pearl millet (bajra, Pennisetum glaucum) with Napier grass (Pennisetum purpureum). This has the effect of combining nicely complementary traits into a highly productive fodder plant.

The best thing about BNH is their high yield of biomass. Under ideal conditions, annual green fodder production can exceed 200–300 tonnes per hectare, which comfortably outperforms other forage grass options. This productivity is due to fast growth, profuse tillering, and efficient nutrient uptake. For smallholder dairy systems, where land is usually at a premium, such a yield advantage translates pretty quickly into higher milk output per area. Also, BNH are perennial, which reduces costs over time, as fields can remain productive for several years with proper care.

And their nutritional profile is pretty good. Crude protein is typically 8–14%, depending on management and cutting stage, while digestibility remains ok if the plants are harvested relatively early, before they start getting woody, say at 45–60 day intervals.

BNH are resilient, being tolerant to drought and intermittent water stress, a trait inherited largely from pearl millet, though they also respond well to irrigation and fertilization. That makes them widely suitable, everywhere from low-input rainfed systems to intensive peri-urban dairying.

All that said, there are drawbacks. Perhaps the main one is that BNH are typically sterile, not producing seeds, and must be propagated vegetatively, through stem cuttings or root splits. This means farmers depend on planting material supply chains that are often weak or informal. Diseases can also be transmitted more easily with vegetative material. Plus high biomass production demands big nutrient inputs, particularly nitrogen, with inadequate fertilization quickly eroding both yield and quality. That can be expensive.

In response, a significant recent line of research has focused on developing seed-propagated BNH. This is technically tricky, because sterility in the classic hybrids is linked to genomic incompatibilities between the parental species, due to their different ploidies, or numbers of chromosomes. So breeding strategies have explored chromosome doubling, intermediate ploidy levels, and backcrossing to restore partial fertility while retaining the desirable forage traits.

Seeds simplify dissemination, reduce transport costs, and mitigate the spread of vegetatively transmitted diseases. They also enable more formal seed sector engagement, including developing new varieties. Sure, trade-offs remain: some seed-propagated lines show lower biomass yields or less persistence compared to established clonal hybrids, and ensuring consistent performance across environments is still a work in progress. So it’s good to see ICRISAT and others on the case.

Brainfood: Animal diversity edition

We need diverse farms, and genebanks can help

A LinkedIn post by CGIAR stalwart Dr Carlo Fadda convinced me I should give a bit more exposure to a recent paper than the brief Brainfood entry I wrote about it a few weeks ago. The paper is Long-term agricultural diversification increases financial profitability, biodiversity, and ecosystem services: a second-order meta-analysis. Its authors are Estelle Raveloaritiana and Thomas Cherico Wanger, and it was published in Nature Communications this past January.

In that Brainfood, I tried to bring together in a logical thread various studies on different aspects of farm diversity and its benefits. In particular, its effects on diet diversity, and hence health outcomes.

But better diets and human health are not the only pluses of diverse farms, and the paper in question in fact suggests that intercropping, organic farming, and other diversification strategies also increase incomes, biodiversity, pollination, soil quality, and carbon sequestration significantly over 20 years. With, importantly, no downward hit on crop yields. So going diverse — organic, if you will — has many advantages that are not overall associated with a yield tradeoff. And that’s from a meta-analysis of 184 meta-analyses and 120 years of data, so it’s a pretty robust result.

As Dr Fadda points out in his excellent summary of the paper, good evidence that diverse — including agrobiodiverse — farms are good for farmers, consumers and the planet is clearly there. The challenge is to find the institutional will to act on it.

I’d like to add that genebanks around the world are ready, willing and able to do just that. It’s literally their job, or at least a big part of it. I hope they are given the chance — and the resources — to do it.

Yes, win-win-win diets are possible

Happy to second the sentiment expressed in this snippet from Jeremy’s latest newsletter. And there are so very many more equally interesting snippets to be found across the previous 299 issues, going back almost exactly 11 years. Congrats, Jeremy!

I heartily applaud scientists who take the trouble to create a more accessible version of their research results, and not only because it saves me the effort. I’m very happy, then, to refer you to two versions from two of the authors of Strategies for achieving healthy, sustainable, and equitable dietary transitions, recently published in Science.

The paper “connects the behaviors of consumers, producers, and the midstream actors who influence both supply and demand. It then proposes solutions based on syntheses of evidence across major intervention domains”.

Jess Fanzo and Marc Bellemare — both no stranger to the podcast — have made it easier for the rest of us to understand the complexities and difficulties involved.

Brainfood: Diversification edition