Abstract
The small grain cereal, finger millet (FM, Eleusine coracana L. Gaertn), is valued by subsistence farmers in India and East Africa as a low-input crop. It is reported by farmers to require no added nitrogen (N), or only residual N, to produce grain. Exact mechanisms underlying the acclimation responses of FM to low N are largely unknown, both above and below ground. In particular, the responses of FM roots and root hairs to N or any other nutrient have not previously been reported. Given its low N requirement, FM also provides a rare opportunity to study long-term responses to N starvation in a cereal species. The objective of this study was to survey the shoot and root morphometric responses of FM, including root hairs, to low N stress. Plants were grown in pails in a semi-hydroponic system on clay containing extremely low background N, supplemented with N or no N. To our surprise, plants grown without deliberately added N grew to maturity, looked relatively normal and produced healthy seed heads. Plants responded to the low N treatment by decreasing shoot, root, and seed head biomass. These declines under low N were associated with decreased shoot tiller number, crown root number, total crown root length and total lateral root length, but with no consistent changes in root hair traits. Changes in tiller and crown root number appeared to coordinate the above and below ground acclimation responses to N. We discuss the remarkable ability of FM to grow to maturity without deliberately added N. The results suggest that FM should be further explored to understand this trait. Our observations are consistent with indigenous knowledge from subsistence farmers in Africa and Asia, where it is reported that this crop can survive extreme environments.
Highlights
Shoot, and Seed Head Biomass In both 2012 and 2013, end-season root and shoot biomass values were significantly lower when plants were treated with −N compared with +N (Tables 1 and 2; Figures 2 and 3)
Consistent with observations of subsistence farmers, our results show that finger millet (FM) is a remarkable crop – surprisingly able to flower and produce healthy seed heads without any deliberately added nitrogen (N)
In South Asia, FM is often transplanted from nurseries (National Research Council, 1996), a practice mimicked in this study
Summary
Gaertn) is one of the small millet cereals (National Research Council, 1996; Goron and Raizada, 2015), originally native to the Ethiopian highlands (Dida et al, 2008). FM is largely consumed by marginalized inhabitants of semi-arid Asia and Africa, and sold to provide subsistence farmers with additional income (Dorosh et al, 2009; Gruère et al, 2009). FM is highly valued by local farmers for its ability to grow in adverse agro-climatic conditions, where major cereal crops such as maize (Zea mays), wheat (Triticum spp.), and rice (Oryza sativa) fail, and has been noted to tolerate a wide variety of soils (Upadhyaya et al, 2006).
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