Effects of Temperature Increase on Pea Production in a Semiarid Region of China

Effects of Temperature Increase on Pea Production in a Semiarid Region of China

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In this study, a field experiment was used to evaluate a pea crop ( Pisum sativum L. ) at Tongwei Experimental Station (35 ° 13'N, 105 ° 14'E), which is in a semiarid region of China. In this experiment, the mean daily temperature was designed to increase by 0.6-2.2 ° C throughout the comp...

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Main Authors: Guoju Xiao, Qiang Zhang, Runyuan Wang, Yubi Yao, Hong Zhao, Huzhi Bai, Youcai Xiong
Format: Article
Language:English
Published: SAGE Publishing 2009-01-01
Series:Air, Soil and Water Research
Online Access:https://doi.org/10.4137/ASWR.S2488
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spelling doaj-0f73cc5e492a4cd48d6e694e0d7c2d332020-11-25T03:43:38ZengSAGE PublishingAir, Soil and Water Research1178-62212009-01-01210.4137/ASWR.S2488Effects of Temperature Increase on Pea Production in a Semiarid Region of ChinaGuoju Xiao0Qiang Zhang1Runyuan Wang2Yubi Yao3Hong Zhao4Huzhi Bai5Youcai Xiong6Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.Institute of Arid Meteorology, China Meteorological Administration, Gansu Key Laboratory of Arid Climate Changes and Disaster Reduction, Lanzhou, Gansu Province 730020, China.State Key Laboratory of Arid Agroecology, Lanzhou University, Lanzhou, Gansu Province 73000, China.In this study, a field experiment was used to evaluate a pea crop ( Pisum sativum L. ) at Tongwei Experimental Station (35 ° 13'N, 105 ° 14'E), which is in a semiarid region of China. In this experiment, the mean daily temperature was designed to increase by 0.6-2.2 ° C throughout the complete growth stage of the pea crop. When the mean daily temperature increased by approximately 2.2 ° C, the water use efficiency (WUE) of the pea crop decreased by 30.4%, the duration of the growth stage was shortened by approximately 17 days, the yields were decreased by 17.5%, the number of stems with root-rot sickness were increased by 50.6%, and the input-output ratio (In/Ou) of the pea crop was 1.20. When the mean daily temperature was increased by approximately 1.4 ° C, the WUE decreased by 26.1%, the growth stage duration decreased by 10 days, the yields decreased by 11.1%, the number of stems with root-rot sickness increased by 23.3%, and the input-output ratio (In/Ou) was 1.11. In addition, supplementary irrigation was found to be beneficial to the pea yields when the temperature increased. Indeed, application of 60 mm of supplementary irrigation during the complete growth stages of crops that were subjected to an increase in mean daily temperature of 0.6-2.2 ° C resulted in crop yields improving by 8.3%-12.8%. Consequently, in this region, supplementary irrigation may play an important role in maintaining pea yields that would otherwise be affected by climate warming. However, the results also show that application of 60 mm of supplementary irrigation does not decrease the number of stems with root-rot sickness and that the In/Ou ratio of pea crops subjected to the same temperature conditions will increase.https://doi.org/10.4137/ASWR.S2488
collection DOAJ
language English
format Article
sources DOAJ
author Guoju Xiao
Qiang Zhang
Runyuan Wang
Yubi Yao
Hong Zhao
Huzhi Bai
Youcai Xiong
spellingShingle Guoju Xiao
Qiang Zhang
Runyuan Wang
Yubi Yao
Hong Zhao
Huzhi Bai
Youcai Xiong
Effects of Temperature Increase on Pea Production in a Semiarid Region of China
Air, Soil and Water Research
author_facet Guoju Xiao
Qiang Zhang
Runyuan Wang
Yubi Yao
Hong Zhao
Huzhi Bai
Youcai Xiong
author_sort Guoju Xiao
title Effects of Temperature Increase on Pea Production in a Semiarid Region of China
title_short Effects of Temperature Increase on Pea Production in a Semiarid Region of China
title_full Effects of Temperature Increase on Pea Production in a Semiarid Region of China
title_fullStr Effects of Temperature Increase on Pea Production in a Semiarid Region of China
title_full_unstemmed Effects of Temperature Increase on Pea Production in a Semiarid Region of China
title_sort effects of temperature increase on pea production in a semiarid region of china
publisher SAGE Publishing
series Air, Soil and Water Research
issn 1178-6221
publishDate 2009-01-01
description In this study, a field experiment was used to evaluate a pea crop ( Pisum sativum L. ) at Tongwei Experimental Station (35 ° 13'N, 105 ° 14'E), which is in a semiarid region of China. In this experiment, the mean daily temperature was designed to increase by 0.6-2.2 ° C throughout the complete growth stage of the pea crop. When the mean daily temperature increased by approximately 2.2 ° C, the water use efficiency (WUE) of the pea crop decreased by 30.4%, the duration of the growth stage was shortened by approximately 17 days, the yields were decreased by 17.5%, the number of stems with root-rot sickness were increased by 50.6%, and the input-output ratio (In/Ou) of the pea crop was 1.20. When the mean daily temperature was increased by approximately 1.4 ° C, the WUE decreased by 26.1%, the growth stage duration decreased by 10 days, the yields decreased by 11.1%, the number of stems with root-rot sickness increased by 23.3%, and the input-output ratio (In/Ou) was 1.11. In addition, supplementary irrigation was found to be beneficial to the pea yields when the temperature increased. Indeed, application of 60 mm of supplementary irrigation during the complete growth stages of crops that were subjected to an increase in mean daily temperature of 0.6-2.2 ° C resulted in crop yields improving by 8.3%-12.8%. Consequently, in this region, supplementary irrigation may play an important role in maintaining pea yields that would otherwise be affected by climate warming. However, the results also show that application of 60 mm of supplementary irrigation does not decrease the number of stems with root-rot sickness and that the In/Ou ratio of pea crops subjected to the same temperature conditions will increase.
url https://doi.org/10.4137/ASWR.S2488
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