Physiological, metabolomic, morphological and root system architecture acclimation responses to drought in the African orphan millet white fonio (Digitaria exilis)
Roshan Pudasaini, Joy Amyotte, Dylan J. L. Brettingham, Manish N. Raizada
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引用次数: 0
Abstract
Aims
White fonio is an ancient West African orphan millet crop. As one of the world’s fastest-maturing cereals, it helps smallholders mitigate mid-season hunger. There are no reported studies on drought acclimation responses in fonio to identify traits that can enable breeding for climate change adaptation.
Methods
Here, two white fonio accessions from wetter (Guinea) and dryer (Mali) environments were grown indoors under three moisture levels in replicated trials. Physiological, morphological and metabolomic phenotyping was undertaken, including root system architecture analysis, culminating in measuring ~ 27,000 root hairs.
Results
Fonio responded to drought by dramatically upregulating glycine- and alanine-betaine leaf concentrations. Both accessions exhibited increased root:shoot ratio and leaf angle, but reduced shoot branching, leaf width, transpiration, and stomatal conductance. Grain yield most positively correlated with SPAD chlorophyll. Lower grain fill was observed in the Guinea accession, while the Mali accession showed a surprising increase in the harvest index when exposed to extreme drought. In the Mali accession, drought resulted in fewer but longer crown roots, increased lateral root branching, and a greater density and lengthening of root hairs. In particular, leaf width, angle and SPAD were identified as cost- and time effective selection traits.
Conclusions
This paper has identified above- and below-ground drought acclimation traits in white fonio. These results build a foundation for future efforts to breed this crop to tolerate accelerating climate change, ultimately to assist vulnerable West African farmers.
期刊介绍:
Plant and Soil publishes original papers and review articles exploring the interface of plant biology and soil sciences, and that enhance our mechanistic understanding of plant-soil interactions. We focus on the interface of plant biology and soil sciences, and seek those manuscripts with a strong mechanistic component which develop and test hypotheses aimed at understanding underlying mechanisms of plant-soil interactions. Manuscripts can include both fundamental and applied aspects of mineral nutrition, plant water relations, symbiotic and pathogenic plant-microbe interactions, root anatomy and morphology, soil biology, ecology, agrochemistry and agrophysics, as long as they are hypothesis-driven and enhance our mechanistic understanding. Articles including a major molecular or modelling component also fall within the scope of the journal. All contributions appear in the English language, with consistent spelling, using either American or British English.
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