Abstract
Drought affects the growth of legumes directly, and indirectly, by reducing total nitrogen fixation. Here, we compiled published data to compare the sensitivity to water deficit on plant growth and total nitrogen fixation traits, i.e., the number of nodules per plant, average nodule mass, and nitrogen fixation per unit nodule mass. Hierarchies of phenotypic plasticity have been established for seeds and organelles, whereby variation in number associates with conserved size. By analogy, our first hypothesis is that there is a hierarchy of plasticities between nitrogen fixation traits. Our second hypothesis is that determinate nodules are more sensitive to water deficit than their indeterminate counterparts, because the latter can reactivate meristems when water becomes available. In our sample, onset of stress treatment averaged 28 d after sowing; median duration of stress was 12 d; and intensity of stress (ratio of shoot biomass between stressed and control) averaged 0.65. These drought conditions (i) reduced total nitrogen fixation and average nodule mass more severely than plant shoot mass, (ii) elicited a hierarchy of plasticities whereby number of nodules per plant varied substantially, and average nodule mass and nitrogen fixation per unit nodule mass were relatively conserved, and (iii) affected more severely Milletioids (determinate, ureide exporting nodules) than their IRLC counterparts (indeterminate, amide exporting nodules).
| Original language | English (US) |
|---|---|
| Article number | 108586 |
| Journal | Field Crops Research |
| Volume | 284 |
| DOIs | |
| State | Published - Aug 1 2022 |
Bibliographical note
Funding Information:NI thanks The University of Adelaide for a Research Training Program Scholarship, and Muhammad Ali Raza, Sajad Hussain, Tehseen Ahmad Meraj (Sichuan Agricultural University), Anteneh Argaw Alemneh (University of Adelaide), and Awais Shakoor (University of Lleida) for their guidance in data analysis and writing this paper. The Grains Research and Development Corporation project “Matching pulse crop design to site and expected seasonal conditions to maximise yield and profit: a crop ecophysiology approach” partially funds VOS research in pulses. Funding from the Australian Research Council and the Grains Research and Development Corporation in the project "Legumes for Sustainable Agriculture" (IH140100013), partially funded MDD research in pulses.
Funding Information:
NI thanks The University of Adelaide for a Research Training Program Scholarship, and Muhammad Ali Raza, Sajad Hussain, Tehseen Ahmad Meraj (Sichuan Agricultural University), Anteneh Argaw Alemneh (University of Adelaide), and Awais Shakoor (University of Lleida) for their guidance in data analysis and writing this paper. The Grains Research and Development Corporation project “Matching pulse crop design to site and expected seasonal conditions to maximise yield and profit: a crop ecophysiology approach” partially funds VOS research in pulses. Funding from the Australian Research Council and the Grains Research and Development Corporation in the project “Legumes for Sustainable Agriculture” (IH140100013), partially funded MDD research in pulses.
Publisher Copyright:
© 2022
Keywords
- Amide
- Plasticity
- Senescence
- Symbiosis
- Trade-off
- Ureide