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Chickpea water use efficiency in relation to cropping system, cultivar, soil nitrogen and Rhizobial inoculation in semiarid environments

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  • Gan, Y.T.
  • Warkentin, T.D.
  • Bing, D.J.
  • Stevenson, F.C.
  • McDonald, C.L.

Abstract

Crops grown in semiarid rainfed conditions are prone to water stress which could be alleviated by improving cultural practices. This study determined the effect of cropping system, cultivar, soil nitrogen status and Rhizobium inoculation (Rz) on water use and water use efficiency (WUE) of chickpea (Cicer arietinum L.) in semiarid environments. The cultivars Amit, CDC Anna, CDC Frontier, and CDC Xena were grown in no-till barley, no-till wheat, and tilled-fallow systems and under various rates of N fertilizer (0, 28, 56, 84, and 112kgNha-1) coupled with or without Rz. The study was conducted at Swift Current and Shaunavon, Saskatchewan, from 2004 to 2006. On average, chickpea used about 10mm of water from the top 0-15cm soil depth. In the tilled-fallow system, chickpea extracted 20% more water in the 15-30cm depth, 70% more in the 30-60cm depth, and 156% more in the 60-120cm depth than when it was grown in the no-till systems. CDC Xena had WUE of 5.3kgha-1mm-1 or 20% less than the average WUE (6.6kgha-1mm-1) of the three other cultivars, even though these cultivars used the same amounts of water. Water use efficiency increased from 4.7 to 6.8kgha-1mm-1 as N fertilizer rate was increased from 0 to 112kgNha-1 when chickpea was grown in the no-till barley or wheat systems, but chickpea grown in the tilled-fallow system did not respond to changes in the fertilizer N rates averaging WUE of 6.5kgha-1mm-1. In the absence of N fertilizer, the application of Rz increased WUE by 33% for chickpea grown in the no-till barley system, 30% in the no-till wheat system, and 9% in the tilled-fallow system. Chickpea inoculated with Rhizobium achieved a WUE value similar to the crop fertilized at 84kgNha-1. Without the use of Rz, chickpea increased WUE in a linear fashion with increasing fertilizer N rates from 0 to 84kgNha-1. Cropping system, cultivar, and inoculation all had greater impact on WUE than on the amount of water extracted by the crop from the soil. The improvement of cultural practices to promote general plant health along with the development of cultivars with improved crop yields will be keys for improving water use efficiency of chickpea in semiarid environments.

Suggested Citation

  • Gan, Y.T. & Warkentin, T.D. & Bing, D.J. & Stevenson, F.C. & McDonald, C.L., 2010. "Chickpea water use efficiency in relation to cropping system, cultivar, soil nitrogen and Rhizobial inoculation in semiarid environments," Agricultural Water Management, Elsevier, vol. 97(9), pages 1375-1381, September.
    • Handle: RePEc:eee:agiwat:v:97:y:2010:i:9:p:1375-1381
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    References listed on IDEAS

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    1. Gan, Y. & Campbell, C.A. & Liu, L. & Basnyat, P. & McDonald, C.L., 2009. "Water use and distribution profile under pulse and oilseed crops in semiarid northern high latitude areas," Agricultural Water Management, Elsevier, vol. 96(2), pages 337-348, February.
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    1. Sara Fahde & Said Boughribil & Badreddine Sijilmassi & Ahmed Amri, 2023. "Rhizobia: A Promising Source of Plant Growth-Promoting Molecules and Their Non-Legume Interactions: Examining Applications and Mechanisms," Agriculture, MDPI, vol. 13(7), pages 1-21, June.
    2. Fernández-García, Purificación & López-Bellido, Luis & Muñoz-Romero, Verónica & López-Bellido, Rafael J., 2013. "Chickpea water use efficiency as affected by tillage in rainfed Mediterranean conditions," Agricultural Water Management, Elsevier, vol. 129(C), pages 194-199.
    3. Michele Andrea De Santis & Antonio Satriani & Fortunato De Santis & Zina Flagella, 2022. "Water Use Efficiency, Spectral Phenotyping and Protein Composition of Two Chickpea Genotypes Grown in Mediterranean Environments under Different Water and Nitrogen Supply," Agriculture, MDPI, vol. 12(12), pages 1-14, November.

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