Assessment framework for water-suitable planting patterns of economic tree species in arid areas

Appropriate forest restoration is of great significance in arid regions. However, it is necessary to balance soil moisture utilization to maintain the health of the ecosystem. The northern Shaanxi region of the Loess Plateau has undergone large-scale afforestation, primarily focused on fruit tree pl...

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Published inAgricultural water management Vol. 314; p. 109513
Main Authors Xu, Chao, Kong, Wei, Zhao, Dongmei, Bai, Ting, Gao, Fei, Luan, Xiaobo, Sun, Shikun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2025
Elsevier
Subjects
afforestation
apples
China
climate
ecosystems
evolution
Forest restoration
fruit trees
industry
Loess Plateau
orchards
soil water
Soil water carrying capacity for vegetation
Suitable growth area
sustainable development
water management
water shortages
Water-suitable planting patterns
China
Water-suitable planting patterns
Suitable growth area
Forest restoration
Soil water carrying capacity for vegetation
Loess Plateau
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Abstract Appropriate forest restoration is of great significance in arid regions. However, it is necessary to balance soil moisture utilization to maintain the health of the ecosystem. The northern Shaanxi region of the Loess Plateau has undergone large-scale afforestation, primarily focused on fruit tree planting. Although it is a favorable production area for apples, unreasonable planting patterns have exacerbated soil moisture consumption, leading to a contradiction between orchard expansion and water scarcity. Therefore, this study selects apple orchards in this region as the research subject. By integrating the calibrated WinEPIC model and MaxEnt model, the study evaluates water-suitable planting patterns for orchards, including suitable planting years, planting density, theoretical coverage, and the evolution of suitable growth areas under future climate scenarios. The main conclusions are as follows: (1) Orchard yield and water productivity show a parabolic increasing trend with planting density; (2) The suitable planting density for representative orchards varies between 611 and 1099 trees/hm², and the theoretical coverage gradually decreases from south to north; (3) Under future climate scenarios, the distribution range of suitable growth areas becomes more concentrated, with the centroid of suitable areas shifting northward. This study is of great significance for guiding the sustainable development of the apple industry in northern Shaanxi. At the same time, it also provides valuable references and examples for forest restoration and water-suitable planting of tree species in other similar regions. [Display omitted] •Integrated WinEPIC and MaxEnt models assessed water-suitable apple planting.•The yield and water productivity show a parabolic increase with planting density.•The suitable planting years, and planting density have been determined.•Future climates concentrate and shift suitable growth areas northward.•Water-suitable planting ensures economic and ecological win-win outcomes.
AbstractList Appropriate forest restoration is of great significance in arid regions. However, it is necessary to balance soil moisture utilization to maintain the health of the ecosystem. The northern Shaanxi region of the Loess Plateau has undergone large-scale afforestation, primarily focused on fruit tree planting. Although it is a favorable production area for apples, unreasonable planting patterns have exacerbated soil moisture consumption, leading to a contradiction between orchard expansion and water scarcity. Therefore, this study selects apple orchards in this region as the research subject. By integrating the calibrated WinEPIC model and MaxEnt model, the study evaluates water-suitable planting patterns for orchards, including suitable planting years, planting density, theoretical coverage, and the evolution of suitable growth areas under future climate scenarios. The main conclusions are as follows: (1) Orchard yield and water productivity show a parabolic increasing trend with planting density; (2) The suitable planting density for representative orchards varies between 611 and 1099 trees/hm², and the theoretical coverage gradually decreases from south to north; (3) Under future climate scenarios, the distribution range of suitable growth areas becomes more concentrated, with the centroid of suitable areas shifting northward. This study is of great significance for guiding the sustainable development of the apple industry in northern Shaanxi. At the same time, it also provides valuable references and examples for forest restoration and water-suitable planting of tree species in other similar regions. [Display omitted] •Integrated WinEPIC and MaxEnt models assessed water-suitable apple planting.•The yield and water productivity show a parabolic increase with planting density.•The suitable planting years, and planting density have been determined.•Future climates concentrate and shift suitable growth areas northward.•Water-suitable planting ensures economic and ecological win-win outcomes.
Appropriate forest restoration is of great significance in arid regions. However, it is necessary to balance soil moisture utilization to maintain the health of the ecosystem. The northern Shaanxi region of the Loess Plateau has undergone large-scale afforestation, primarily focused on fruit tree planting. Although it is a favorable production area for apples, unreasonable planting patterns have exacerbated soil moisture consumption, leading to a contradiction between orchard expansion and water scarcity. Therefore, this study selects apple orchards in this region as the research subject. By integrating the calibrated WinEPIC model and MaxEnt model, the study evaluates water-suitable planting patterns for orchards, including suitable planting years, planting density, theoretical coverage, and the evolution of suitable growth areas under future climate scenarios. The main conclusions are as follows: (1) Orchard yield and water productivity show a parabolic increasing trend with planting density; (2) The suitable planting density for representative orchards varies between 611 and 1099 trees/hm², and the theoretical coverage gradually decreases from south to north; (3) Under future climate scenarios, the distribution range of suitable growth areas becomes more concentrated, with the centroid of suitable areas shifting northward. This study is of great significance for guiding the sustainable development of the apple industry in northern Shaanxi. At the same time, it also provides valuable references and examples for forest restoration and water-suitable planting of tree species in other similar regions.
ArticleNumber 109513
Author Kong, Wei
Gao, Fei
Sun, Shikun
Bai, Ting
Zhao, Dongmei
Xu, Chao
Luan, Xiaobo
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Keywords Water-suitable planting patterns
Suitable growth area
Forest restoration
Soil water carrying capacity for vegetation
Loess Plateau
Language English
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SubjectTerms afforestation
apples
China
climate
ecosystems
evolution
Forest restoration
fruit trees
industry
Loess Plateau
orchards
soil water
Soil water carrying capacity for vegetation
Suitable growth area
sustainable development
water management
water shortages
Water-suitable planting patterns
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Title Assessment framework for water-suitable planting patterns of economic tree species in arid areas
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