Correlation of climate change and human activities with agricultural drought and its impact on the net primary production of winter wheat

•Drought propagation time increased with decreasing precipitation.•Climate change is the main driver of agricultural drought.•Precipitation was the main driver of human activities.•Prolonged drought propagation time reduced winter wheat NPP.•The sensitivity of winter wheat NPP to agricultural drough...

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Published inJournal of hydrology (Amsterdam) Vol. 620; p. 129504
Main Authors Wu, Jiujiang, Gu, Yuhui, Sun, Kexin, Wang, Nan, Shen, Hongzheng, Wang, Yongqiang, Ma, Xiaoyi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2023
Subjects
Agricultural drought
agroecosystems
China
climate change
drought
evapotranspiration
food security
humans
irrigation
latitude
Meteorological drought
Net primary production
net primary productivity
phenology
Propagation time
rain
soil water
solar radiation
temperature
wind
Winter wheat
China
Agricultural drought
Meteorological drought
Propagation time
Net primary production
Winter wheat
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Abstract •Drought propagation time increased with decreasing precipitation.•Climate change is the main driver of agricultural drought.•Precipitation was the main driver of human activities.•Prolonged drought propagation time reduced winter wheat NPP.•The sensitivity of winter wheat NPP to agricultural drought is higher in humid area. Drought is a major natural disaster worldwide. Understanding the correlation between meteorological drought (MD) and agricultural drought (AD) is essential for relevant policymaking. In this paper, standardized precipitation evapotranspiration index and standardized soil moisture index were used to estimate the MD and AD in the North China Plain (NCP) to identify the correlation between MD and AD during the growth period of winter wheat. In addition, we investigated the contributions of climate change (CC) and human activity (HA) to AD and the factors influencing the loss of winter wheat net primary production (NPP). Drought propagation time (PT) increased spatially from the southern to northern NCP (from 3 to 11 months). PT first increased and then decreased during the phenological period of winter wheat, and the decreasing trend was delayed with an increasing latitude. In general, the relative contribution of CC to AD was higher than that of HA; the correlation between MD and AD exhibited a weakening trend, particularly during the middle and late phenological stages of winter wheat. Precipitation was the main driver of the effects of HA on AD; the effects were stronger in areas with less precipitation. However, because of the improved irrigation conditions and scarce rainfall during the growth period of winter wheat in the study area, the effects of precipitation on AD were nonsignificant. Instead, temperature, wind, and total solar radiation, which are highly correlated with evapotranspiration, were identified as the primary drivers of AD; spatiotemporal variations were noted in these correlations. Prolonged drought PT reduced NPP; the sensitivity of winter wheat NPP to AD was higher in humid areas than in semiarid or semihumid areas. NPP loss occurred primarily due to HA. Our findings revealed a correlation between MD and AD in agroecosystems and may facilitate policymaking related to drought mitigation and food security.
AbstractList •Drought propagation time increased with decreasing precipitation.•Climate change is the main driver of agricultural drought.•Precipitation was the main driver of human activities.•Prolonged drought propagation time reduced winter wheat NPP.•The sensitivity of winter wheat NPP to agricultural drought is higher in humid area. Drought is a major natural disaster worldwide. Understanding the correlation between meteorological drought (MD) and agricultural drought (AD) is essential for relevant policymaking. In this paper, standardized precipitation evapotranspiration index and standardized soil moisture index were used to estimate the MD and AD in the North China Plain (NCP) to identify the correlation between MD and AD during the growth period of winter wheat. In addition, we investigated the contributions of climate change (CC) and human activity (HA) to AD and the factors influencing the loss of winter wheat net primary production (NPP). Drought propagation time (PT) increased spatially from the southern to northern NCP (from 3 to 11 months). PT first increased and then decreased during the phenological period of winter wheat, and the decreasing trend was delayed with an increasing latitude. In general, the relative contribution of CC to AD was higher than that of HA; the correlation between MD and AD exhibited a weakening trend, particularly during the middle and late phenological stages of winter wheat. Precipitation was the main driver of the effects of HA on AD; the effects were stronger in areas with less precipitation. However, because of the improved irrigation conditions and scarce rainfall during the growth period of winter wheat in the study area, the effects of precipitation on AD were nonsignificant. Instead, temperature, wind, and total solar radiation, which are highly correlated with evapotranspiration, were identified as the primary drivers of AD; spatiotemporal variations were noted in these correlations. Prolonged drought PT reduced NPP; the sensitivity of winter wheat NPP to AD was higher in humid areas than in semiarid or semihumid areas. NPP loss occurred primarily due to HA. Our findings revealed a correlation between MD and AD in agroecosystems and may facilitate policymaking related to drought mitigation and food security.
Drought is a major natural disaster worldwide. Understanding the correlation between meteorological drought (MD) and agricultural drought (AD) is essential for relevant policymaking. In this paper, standardized precipitation evapotranspiration index and standardized soil moisture index were used to estimate the MD and AD in the North China Plain (NCP) to identify the correlation between MD and AD during the growth period of winter wheat. In addition, we investigated the contributions of climate change (CC) and human activity (HA) to AD and the factors influencing the loss of winter wheat net primary production (NPP). Drought propagation time (PT) increased spatially from the southern to northern NCP (from 3 to 11 months). PT first increased and then decreased during the phenological period of winter wheat, and the decreasing trend was delayed with an increasing latitude. In general, the relative contribution of CC to AD was higher than that of HA; the correlation between MD and AD exhibited a weakening trend, particularly during the middle and late phenological stages of winter wheat. Precipitation was the main driver of the effects of HA on AD; the effects were stronger in areas with less precipitation. However, because of the improved irrigation conditions and scarce rainfall during the growth period of winter wheat in the study area, the effects of precipitation on AD were nonsignificant. Instead, temperature, wind, and total solar radiation, which are highly correlated with evapotranspiration, were identified as the primary drivers of AD; spatiotemporal variations were noted in these correlations. Prolonged drought PT reduced NPP; the sensitivity of winter wheat NPP to AD was higher in humid areas than in semiarid or semihumid areas. NPP loss occurred primarily due to HA. Our findings revealed a correlation between MD and AD in agroecosystems and may facilitate policymaking related to drought mitigation and food security.
ArticleNumber 129504
Author Gu, Yuhui
Wu, Jiujiang
Wang, Nan
Shen, Hongzheng
Sun, Kexin
Ma, Xiaoyi
Wang, Yongqiang
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  givenname: Kexin
  surname: Sun
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  email: 2021050979@nwafu.edu.cn
  organization: Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling 712100, China
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  givenname: Nan
  surname: Wang
  fullname: Wang, Nan
  email: 1547643865@nwafu.edu.cn
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  givenname: Hongzheng
  surname: Shen
  fullname: Shen, Hongzheng
  email: shenhongzheng@nwafu.edu.cn
  organization: Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling 712100, China
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  givenname: Yongqiang
  surname: Wang
  fullname: Wang, Yongqiang
  email: wangyongqiang@nwafu.edu.cn
  organization: Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling 712100, China
– sequence: 7
  givenname: Xiaoyi
  surname: Ma
  fullname: Ma, Xiaoyi
  email: xma@nwafu.edu.cn
  organization: Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling 712100, China
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Keywords Agricultural drought
Meteorological drought
Propagation time
Net primary production
Winter wheat
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Snippet •Drought propagation time increased with decreasing precipitation.•Climate change is the main driver of agricultural drought.•Precipitation was the main driver...
Drought is a major natural disaster worldwide. Understanding the correlation between meteorological drought (MD) and agricultural drought (AD) is essential for...
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StartPage 129504
SubjectTerms Agricultural drought
agroecosystems
China
climate change
drought
evapotranspiration
food security
humans
irrigation
latitude
Meteorological drought
Net primary production
net primary productivity
phenology
Propagation time
rain
soil water
solar radiation
temperature
wind
Winter wheat
Title Correlation of climate change and human activities with agricultural drought and its impact on the net primary production of winter wheat
URI https://dx.doi.org/10.1016/j.jhydrol.2023.129504
https://www.proquest.com/docview/2834217129
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