Abstract
In this study, we investigated the effects of water stress on the growth and yield of summer maize (Zea mays L.) over four phenological stages: Seedling, jointing, heading, and grain-filling. Water stress treatments were applied during each of these four stages in a water-controlled field in the Guanzhong Plain, China between 2013 and 2016. We found that severe water stress during the seedling stage had a greater effect on the growth and development of maize than stress applied during the other three stages. Water stress led to lower leaf area index (LAI) and biomass owing to reduced intercepted photosynthetically active radiation (IPAR) and radiation-use efficiency (RUE). These effects extended to the reproductive stage and eventually reduced the unit kernel weight and yield. In addition, the chlorophyll content in the leaf remained lower, even though irrigation was applied partially or fully after the seedling stage. Severe and prolonged water stress in maize plants during the seedling stage may damage the structure of the photosynthetic membrane, resulting in lower chlorophyll content, and therefore RUE, than those in the plants that did not experience water stress at the seedling stage. Maize plants with such damage did not show a meaningful recovery even when irrigation levels during the rest of the growth period were the same as those applied to the plants not subjected to water stress. The results of our field experiments suggest that an unrecoverable yield loss could occur if summer maize were exposed to severe and extended water stress events during the seedling stage.
Highlights
Maize is one of the most important food grains and bio-energy crops [1,2], with an average harvested area of 157 million ha and production of 781 Mt from 2000 to 2014 [3]
The differences of Irrigation Water-Use Efficiency (IWUE) under different irrigation treatments were not significant, and the maize plants subjected to GFS with the low irrigation (LowIRR) treatment produced the highest IWUE with 2.07 kg m-3, while the lowest value (1.35 kg m-3) occurred in SDS with high irrigation (HighIRR)
The differences of IWUE under different irrigation treatments were not significant, and the maize plants subjected to GFS with the LowIRR treatment produced the highest IWUE with 2.07 kg m−3, while the lowest value (1.35 kg m−3) occurred in SDS with HighIRR
Summary
Maize is one of the most important food grains and bio-energy crops [1,2], with an average harvested area of 157 million ha and production of 781 Mt from 2000 to 2014 [3]. TThhee ppllaanntt ssppaacciinngg wwaass 3300 ccmm,, rrooww ssppaacciinngg wwaass 5500 ccmm,, aanndd tthhee ssoowwiinngg ddeepptthh wswsooaawwssii5nn ggccm..mTT..hhEEeevvpeperllrayaynnptptilinlonogtgt,w,wssaeeaseesddfeflleirinnrtitggliilzeiezemmeddeewrrwggieetinhtnhcc2ee21,,10aa0nkndkgdghhhmhaarmr−vv2-ee2snsnttiiiitnntrrgogoggddeeaannttee(s(usurffreooearra)t)tahhaneendffdoo1uu16r6r00sskeekgaagsshoomhnnms−s 2-aa PrrPee22OsOshh55oobbwweefnnfooirirnnee TTaabbllee 11. For the FullIRR treatment, we Sustainability 2019, 11, 5086 three times, and plots were conducted in the field based on split-plot design The former level was used for a low irrigation (LowIRR) treatment and the latter for a high irrigation (HighIRR) treatment.
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