Abstract
Environmental stresses are limiting factors in optimal agricultural crop yield, and these stresses, especially drought, are likely to become more acute due to future climate change. Crop wild relatives contain environmentally selected endophytes that can help to increase stress resistance. Our previous work with barley cultivars has shown a positive correlation between endophyte-induced yield increase and increasingly dry conditions. For this study, we hypothesised that a consortium of fungal endophytes recovered from a crop wild relative of barley growing in drought-stressed sites would enhance barley yield in similarly low moisture agricultural sites. We grew three barley cultivars on two environmentally distinct sites under three nitrogen (N) input regimes. We found that the endophyte inoculant induced an increase in grain dry weight at both sites, which experienced abnormally low local rainfall in the early growing season. The yield increase was 1.2 t/ha for standard N input, 1.1 t/ha for half N input and 0.6 t/ha with no N input. Additionally, on both sites, endophyte treatment with half N input recovered yield to that associated with untreated crops with standard N input for all three cultivars. Furthermore, the endophytes still retained their efficacy with regular foliar fungicidal crop treatments. These results show that endophytes recovered from sites with low and similar water status to the targeted barley growing sites can produce large and significant increases in yield regardless of nitrogen input, and hold promise for application in drought-stressed sites with limited access to expensive nitrogen fertilisers.
Highlights
Agricultural crops are subject to many and varied stresses that can reduce yield below the optimum
We investigated if endophtyes would influence barley yield at two widely separated sites that normally experience differing amounts of rainfall, supporting or rejecting our hypothesis that endophytes for drought tolerance can be selected from crop wild relatives growing in low moisture conditions
For all three cultivars, endophyte treatment with half N input recovered yield to that associated with untreated crops with standard N input
Summary
Agricultural crops are subject to many and varied stresses that can reduce yield below the optimum. Stresses associated with drought may become acute in certain areas, and Kang, Khan, and Ma (2009) suggest that with increasing temperature and precipitation fluctuations, water availability and crop production are likely to decrease in the future. Farmers in poorer regions may be hardest hit, but they do not have the resources to buy and use the expensive chemical and cultural inputs that may help to support yields under water-stressed conditions (Pandey & Bhandari, 2008). Irrigation systems can be expensive, with relatively higher economic impacts in poorer countries; two studies in Tanzania and Zambia found that diesel-powered irrigation for maize crops cost over $300/ha, and in Malawi this cost was over $1,500/ha (FAO Natural Resources Management and Environment Department, 2017)
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