Agricultural Adaptation to Drought for Different Cropping Systems in Southern China under Climate Change

Jun, Zhao; Lu, Houquan; Li, Yijun

doi:10.1111/1752-1688.12766

Cited by 4 publications

(3 citation statements)

References 30 publications

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“…Guangxi is located in the south of China and belongs to the subtropical humid monsoon climate zone, where rocky hills are widely distributed, and karsts are developed, leading to the coexistence and alternation of drought and flood disasters; among them, flash droughts and seasonal droughts are frequent and coexist (Wang and Yuan, 2021). In addition, Guangxi is a large agricultural province, crops are mostly planted on sloping land and mainly rain‐fed, and crop growth in the region is extremely sensitive to the response of meteorological drought (Zhao et al ., 2019; Zhang et al ., 2020a). In recent years, international research on drought events, on the one hand, is gradually changing from the traditional monthly and above time scales and single‐factor feature statistics to more refined time scales and comprehensive measures of multiple factors (Wang et al ., 2021).…”

Section: Introductionmentioning

confidence: 99%

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

Yang

Tian

et al. 2023

Intl Journal of Climatology

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The frequent occurrence of extreme drought events in Guangxi has caused huge losses to human beings and economy in the region for many years.Therefore, this study adopted run theory and the objective identification method of regional extreme events (OITREE) and then carried out the comprehensive feature identification of multidimensional elements such as intensity, duration and area of meteorological drought events based on the daily standardized effective precipitation and drought index (SWAP) sequence of Guangxi from 1979 to 2018a. By comparing the evolutionary characteristics of

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Section: Introductionmentioning

confidence: 99%

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

Yang

Tian

et al. 2023

Intl Journal of Climatology

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“…These changes may have adverse impacts on future water distribution patterns in the area, and thus agricultural production (Georgakakos et al ., 2014; Sterle et al ., 2020). Several studies have reported a close relationship between climate changes and increased losses in rice and wheat yields due to higher temperatures and unfavourable rainfall patterns (Mohammed and Tarpley, 2009; Ran et al ., 2018; Qu et al ., 2019; Yang et al ., 2019; Zhao et al ., 2019).…”

Section: Introductionmentioning

confidence: 99%

DRAINMOD simulation of paddy field drainage strategies and adaptation to future climate change in lower reaches of the Yangtze river basin^*

Awad

Luo

Zou

2021

Irrigation and Drainage

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The DRAINMOD model was used to simulate the current and future water balance in the Yanyun Irrigation District, China. Projections of future climate in the district (2021:2050) show that annual maximum and minimum temperatures will increase by [1.09 and 1.15 °C] under the representative concentration pathway RCP4.5 and [1.34 and 1.39 °C] under RCP8.5, besides more frequency of one‐day peak precipitation events. DRAINMOD simulations revealed that future annual runoff will increase by 33.3% (RCP4.5) and 36.9% (RCP8.5), while groundwater tables will drop by 6% (RCP4.5) and 14.5% (RCP8.5). Future hydrology has been resimulated, but with increasing the capacity of surface depressions in an attempt to minimize adverse impacts of climate change, and results have been checked twice: under proper and improper subsurface drainage practices. Under proper subsurface drainage practices, it was revealed that future runoff will decrease by 25.3% (RCP4.5) and 23.6% (RCP8.5), which will cause a rise in groundwater tables to desired levels, while in contrast, improper subsurface drainage practices will increase future runoff by 13.7% (RCP4.5) and 2.8% (RCP8.5), all compared to future values before adaptation. Therefore, proper drainage strategies are a vital tool that helps to cope with climate change in agricultural lands and mitigate future runoff rates.

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“…The scientific community is also focused on climate change adaptation issues because of the increased understanding that inertia in the climate system will necessitate adaptation in the long term [2]. Crops in China will likely be strongly affected by meteorological disasters unless states and communities can quickly adapt their agricultural practices [3,4].…”

Section: Introductionmentioning

confidence: 99%

Multi-Stakeholder Efforts to Adapt to Climate Change in China’s Agricultural Sector

Jiang

et al. 2020

Sustainability

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Agricultural production is a crucial and fundamental aspect of a stable society in China that depends heavily on the climate situation. With the desire to achieve future sustainable development, China’s government is taking actions to adapt to climate change and to ensure food self-sufficiency. This paper assesses the scientific literature from both domestic and international journals, and the review policies released by the Chinese government, in order to investigate the adaptive actions being taken in China at the scale of the central government, and at the local administration and individual farmer level. The results demonstrate that China’s government has undertaken a multitude of adaptation programs in order to cope with vulnerability in the agricultural sector, and these include the release of stimulus policies, the support of new technological research, and investments in field facilities to strengthen the building of adaptive capacity. At the farmer household level, we found that people are spontaneously adapting to climate change on their own accord by changing the timing of cultivations, and through the selection of other crop species and cultivars. People are also securing non-land-related jobs when confronted with climate disasters. A summary is presented of the various agricultural adaptation policies and technologies. Although China has made great progress in terms of adapting to climate change, there is still more work that needs to be done. This work entails not just agricultural policy stimulation but also non-structural components, such as raising public awareness and providing adaptive skill training, etc. It can be concluded that agriculture sector could seek advantages and avoid disadvantages from adaptation activities by multiple stakeholders from different perspectives, and reduce the adverse effects of climate change. Climate adaptation strategies and actions are important and indispensable components for agricultural development in China, and more advanced technologies and ideologies are needed for a secure future.

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Agricultural Adaptation to Drought for Different Cropping Systems in Southern China under Climate Change

Cited by 4 publications

References 30 publications

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

DRAINMOD simulation of paddy field drainage strategies and adaptation to future climate change in lower reaches of the Yangtze river basin^*

Multi-Stakeholder Efforts to Adapt to Climate Change in China’s Agricultural Sector

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Agricultural Adaptation to Drought for Different Cropping Systems in Southern China under Climate Change

Cited by 4 publications

References 30 publications

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

Multidimensional identification of single and regional meteorological drought considering flash‐season synthesis employed daily standardized effective precipitation and drought index in Guangxi, China

DRAINMOD simulation of paddy field drainage strategies and adaptation to future climate change in lower reaches of the Yangtze river basin*

Multi-Stakeholder Efforts to Adapt to Climate Change in China’s Agricultural Sector

Contact Info

Product

Resources

About

DRAINMOD simulation of paddy field drainage strategies and adaptation to future climate change in lower reaches of the Yangtze river basin^*