Physiological responses of chickpea genotypes to terminal drought in a Mediterranean-type environment

Authors

L Leport, University of Western Australia
N C. Turner, Commonwealth Scientific and Industrial Research Organisation
Robert J. French, Department of Agriculture, WAFollow
M D. Barr, University of Western Australia
R Duda, Commonwealth Scientific and Industrial Research Organisation
Stephen L. Davies, Department of Agriculture, WAFollow
David Tennant, Department of Agriculture, WA
Kadambot H M Siddique, Department of Agriculture, WAFollow

Document Type

Article

Publication Date

11-1-1999

Journal Title

European Journal of Agronomy

ISSN

1161-0301

Keywords

Assimilate redistribution; Cicer arietinum (L.); Gas exchange; Osmotic adjustment; Water relations

Disciplines

Agronomy and Crop Sciences | Plant Breeding and Genetics

Abstract

Two field experiments were carried out to investigate the effects of terminal drought on chickpea grown under water-limited conditions in the Mediterranean-climatic region of Western Australia. In the first experiment, five desi (small angular seeds) chickpeas and one kabuli (large round seeds) chickpea were grown in the field with and without irrigation after flowering. In the second experiment, two desi and two kabuli cultivars were grown in the field with either irrigation or under a rainout shelter during pod filling. Leaf water potential (Ψl), dry matter partitioning after pod set and yield components were measured in both experiments while growth before pod set, photosynthesis, pod water potential and leaf osmotic adjustment were measured in the first experiment only. In the first experiment, total dry matter accumulation, water use, both in the pre- and post-podding phases, Ψl and photosynthesis did not vary among genotypes. In the rainfed plants, Ψl decreased below −3 MPa while photosynthesis decreased to about a tenth of its maximum at the start of seed filling. Osmotic adjustment varied significantly among genotypes. Although flowering commenced from about 100 days after sowing (DAS) in both experiments, pod set was delayed until 130–135 DAS in the first experiment, but started at 107 DAS in the second experiment. Water shortage reduced seed yield by 50 to 80%, due to a reduction in seed number and seed size. Apparent redistribution of stem and leaf dry matter during pod filling varied from 0 to 60% among genotypes, and suggests that this characteristic may be important for a high harvest index and seed yield in chickpea.

Recommended Citation

L. Leport, N.C. Turner, R.J. French, M.D. Barr, R. Duda, S.L. Davies, D. Tennant, K.H.M. Siddique, Physiological responses of chickpea genotypes to terminal drought in a Mediterranean-type environment, European Journal of Agronomy, Volume 11, Issues 3–4, 1999, Pages 279-291. https://doi.org/10.1016/S1161-0301(99)00039-8.