Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions

Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions

In order to design a water-saving and high-yield maize planting model suitable for semiarid areas, we conducted trials by combining supplementary irrigation with different planting densities. Three planting densities (L: 52,500, M: 75,000, and H: 97,500 plants ha–1) and four supplementary irrigation...

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Main Authors: Donghua Liu, Qianmin Jia, Juan Li, Peng Zhang, Xiaolong Ren, Zhikuan Jia
Format: Article
Language:English
Published: PeerJ Inc. 2020-10-01
Series:PeerJ
Subjects:
Rainfall harvesting
Net photosynthetic rate
Supplemental irrigation
Climate change
Density
Online Access:https://peerj.com/articles/9959.pdf
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spelling doaj-da8c03b0e61345dcaefb2067f0c33a7f2020-11-25T03:56:15ZengPeerJ Inc.PeerJ2167-83592020-10-018e995910.7717/peerj.9959Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regionsDonghua Liu0Qianmin Jia1Juan Li2Peng Zhang3Xiaolong Ren4Zhikuan Jia5College of Agronomy, Northwest A&F University, Yingling, ChinaState Key Laboratory of Grassland Agro-Ecosystems, Key Laboratory of Grassland Livestock Industry Innovation, Ministry of Agriculture, China, College of Pastoral Agriculture Science and Technology, Lanzhou University, Lanzhou, ChinaCollege of Agronomy, Northwest A&F University, Yingling, ChinaCollege of Agronomy, Northwest A&F University, Yingling, ChinaCollege of Agronomy, Northwest A&F University, Yingling, ChinaCollege of Agronomy, Northwest A&F University, Yingling, ChinaIn order to design a water-saving and high-yield maize planting model suitable for semiarid areas, we conducted trials by combining supplementary irrigation with different planting densities. Three planting densities (L: 52,500, M: 75,000, and H: 97,500 plants ha–1) and four supplementary irrigation modes (NI: no irrigation; IV: 375 m3 ha–1 during the 11-leaf stage; IS: 375 m3 ha–1 in the silking stage; and IVS: 375 m3 ha–1 during both stages) were tested. The irrigation treatments significantly increased the leaf relative water content, but the high planting density significantly decreased the relative water content during the silking and filling stages. After supplementary irrigation during the 11-leaf stage, IV and IVS significantly increased the photosynthetic capacity, but decreased the leaf water use efficiency. IS and IVS significantly increased the photosynthetic capacity after supplementary irrigation in the silking stage over two years. During the filling stage, IV, IS, and IVS increased the two-year average net photosynthetic rate by 17.0%, 27.2%, and 30.3%, respectively. The intercellular CO2 concentration increased as the density increased, whereas the stomatal conductance, transpiration rate, net photosynthetic rate, and leaf water use efficiency decreased, and the high planting density significantly reduced the leaf photosynthetic capacity. The highest grain yield was obtained using the IVS treatment under the medium planting density, but it did not differ significantly from that with the IS treatment. Furthermore, the IVS treatment used two times more water than the IS treatment. Thus, the medium planting density combined with supplementary irrigation during the silking stage was identified as a suitable water-saving planting model to improve the photosynthetic capacity and grain yield, and to cope with drought and water shortages in semiarid regions.https://peerj.com/articles/9959.pdfRainfall harvestingNet photosynthetic rateSupplemental irrigationClimate changeDensity
collection DOAJ
language English
format Article
sources DOAJ
author Donghua Liu
Qianmin Jia
Juan Li
Peng Zhang
Xiaolong Ren
Zhikuan Jia
spellingShingle Donghua Liu
Qianmin Jia
Juan Li
Peng Zhang
Xiaolong Ren
Zhikuan Jia
Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
PeerJ
Rainfall harvesting
Net photosynthetic rate
Supplemental irrigation
Climate change
Density
author_facet Donghua Liu
Qianmin Jia
Juan Li
Peng Zhang
Xiaolong Ren
Zhikuan Jia
author_sort Donghua Liu
title Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
title_short Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
title_full Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
title_fullStr Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
title_full_unstemmed Increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
title_sort increased photosynthesis and grain yields in maize grown with less irrigation water combined with density adjustment in semiarid regions
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-10-01
description In order to design a water-saving and high-yield maize planting model suitable for semiarid areas, we conducted trials by combining supplementary irrigation with different planting densities. Three planting densities (L: 52,500, M: 75,000, and H: 97,500 plants ha–1) and four supplementary irrigation modes (NI: no irrigation; IV: 375 m3 ha–1 during the 11-leaf stage; IS: 375 m3 ha–1 in the silking stage; and IVS: 375 m3 ha–1 during both stages) were tested. The irrigation treatments significantly increased the leaf relative water content, but the high planting density significantly decreased the relative water content during the silking and filling stages. After supplementary irrigation during the 11-leaf stage, IV and IVS significantly increased the photosynthetic capacity, but decreased the leaf water use efficiency. IS and IVS significantly increased the photosynthetic capacity after supplementary irrigation in the silking stage over two years. During the filling stage, IV, IS, and IVS increased the two-year average net photosynthetic rate by 17.0%, 27.2%, and 30.3%, respectively. The intercellular CO2 concentration increased as the density increased, whereas the stomatal conductance, transpiration rate, net photosynthetic rate, and leaf water use efficiency decreased, and the high planting density significantly reduced the leaf photosynthetic capacity. The highest grain yield was obtained using the IVS treatment under the medium planting density, but it did not differ significantly from that with the IS treatment. Furthermore, the IVS treatment used two times more water than the IS treatment. Thus, the medium planting density combined with supplementary irrigation during the silking stage was identified as a suitable water-saving planting model to improve the photosynthetic capacity and grain yield, and to cope with drought and water shortages in semiarid regions.
topic Rainfall harvesting
Net photosynthetic rate
Supplemental irrigation
Climate change
Density
url https://peerj.com/articles/9959.pdf
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AT qianminjia increasedphotosynthesisandgrainyieldsinmaizegrownwithlessirrigationwatercombinedwithdensityadjustmentinsemiaridregions
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