2020
DOI: 10.3390/agronomy10040523
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Efficient Physiological and Nutrient Use Efficiency Responses of Maize Leaves to Drought Stress under Different Field Nitrogen Conditions

Abstract: Inadequate water and nitrogen (N) supplies can limit the productivity of maize. Climate change will likely increase drought in many regions on a global scale. The determination of N fertilizer rates under field drought conditions will be critical toward the reduction of agricultural risk. For this study, drought-resistant/sensitive cultivars were selected as experimental samples. Our results revealed that drought stress reduced the relative water content (RWC) of leaves, which resulted in leaf curling, while d… Show more

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Cited by 31 publications
(21 citation statements)
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“…The efficient agronomic management of N fertilisers is usually determined by other practices such as crop rotation, systems of soil tillage or irrigation, etc., and is also significantly related to the meteorological conditions of the year. According to results of Wang et al [43], the N application significantly increased maize grain yields by 26.8% during the wet year, but only increased yields by 5.4% during the dry year. It was obvious that higher fertiliser rates, for instance rates in the N3 treatment, expressed a positive impact on GY, together with the increase in the concentration of important grain components, such as proteins, carotenoids, GSH and Phy.…”
Section: Effects Of N Levels On the Maize Yield And The Grain Composimentioning
confidence: 97%
“…The efficient agronomic management of N fertilisers is usually determined by other practices such as crop rotation, systems of soil tillage or irrigation, etc., and is also significantly related to the meteorological conditions of the year. According to results of Wang et al [43], the N application significantly increased maize grain yields by 26.8% during the wet year, but only increased yields by 5.4% during the dry year. It was obvious that higher fertiliser rates, for instance rates in the N3 treatment, expressed a positive impact on GY, together with the increase in the concentration of important grain components, such as proteins, carotenoids, GSH and Phy.…”
Section: Effects Of N Levels On the Maize Yield And The Grain Composimentioning
confidence: 97%
“…For example, nitrogen use efficiency by wheat does not exceed 33% worldwide 28 and others nutrients mostly do not exceed 50%. Under drought conditions, nutrient use efficiency decreases considerably 31 and this may cause further reductions in plant productivity. In this investigation, we tested the feasibility of using the combined application of exogenous BR and BC as potential safe approaches to mitigate drought stress via increasing plant capability to utilize soil nutrients as well as the enzymatic and non-enzymatic antioxidants; hence this combined application might increase considerably crop yield productivity under drought conditions.…”
Section: Introductionmentioning
confidence: 99%
“…This results in excessive nitrogen fertilizer application in agricultural production ( Wu & Ma, 2015 ; Gao et al, 2020 ). In fact, excessive nitrogen application does not significantly improve the grain yield once the levels have exceeded the ability of plants to uptake nitrate, and instead the residual nitrogen fertilizer in the soil is lost via nitrate leaching and nitrous oxide emissions ( Wang et al, 2020 ). Therefore.…”
Section: Introductionmentioning
confidence: 99%