Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China
Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land us...
Ausführliche Beschreibung
Autor*in: |
Min, Min [verfasserIn] |
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E-Artikel |
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Sprache: |
Englisch |
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2022transfer abstract |
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Übergeordnetes Werk: |
Enthalten in: Land use policy - Son, Yang-Ju ELSEVIER, 2021, the international journal covering all aspects of land use, Amsterdam [u.a.] |
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Übergeordnetes Werk: |
volume:117 ; year:2022 ; pages:0 |
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DOI / URN: |
10.1016/j.landusepol.2022.106093 |
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Katalog-ID: |
ELV057400156 |
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245 | 1 | 0 | |a Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China |
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520 | |a Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. | ||
520 | |a Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. | ||
650 | 7 | |a Spatial forms |2 Elsevier | |
650 | 7 | |a Chaohu Lake Basin |2 Elsevier | |
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650 | 7 | |a Cultivated land use pattern |2 Elsevier | |
650 | 7 | |a Formation mechanism |2 Elsevier | |
700 | 1 | |a Miao, Changhong |4 oth | |
700 | 1 | |a Duan, Xuejun |4 oth | |
700 | 1 | |a Yan, Wei |4 oth | |
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10.1016/j.landusepol.2022.106093 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001735.pica (DE-627)ELV057400156 (ELSEVIER)S0264-8377(22)00120-X DE-627 ger DE-627 rakwb eng 630 640 610 VZ Min, Min verfasserin aut Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Spatial forms Elsevier Chaohu Lake Basin Elsevier Non-spatial forms Elsevier Cultivated land use pattern Elsevier Formation mechanism Elsevier Miao, Changhong oth Duan, Xuejun oth Yan, Wei oth Enthalten in Elsevier Science Son, Yang-Ju ELSEVIER Land use policy 2021 the international journal covering all aspects of land use Amsterdam [u.a.] (DE-627)ELV006296785 volume:117 year:2022 pages:0 https://doi.org/10.1016/j.landusepol.2022.106093 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA AR 117 2022 0 |
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10.1016/j.landusepol.2022.106093 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001735.pica (DE-627)ELV057400156 (ELSEVIER)S0264-8377(22)00120-X DE-627 ger DE-627 rakwb eng 630 640 610 VZ Min, Min verfasserin aut Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Spatial forms Elsevier Chaohu Lake Basin Elsevier Non-spatial forms Elsevier Cultivated land use pattern Elsevier Formation mechanism Elsevier Miao, Changhong oth Duan, Xuejun oth Yan, Wei oth Enthalten in Elsevier Science Son, Yang-Ju ELSEVIER Land use policy 2021 the international journal covering all aspects of land use Amsterdam [u.a.] (DE-627)ELV006296785 volume:117 year:2022 pages:0 https://doi.org/10.1016/j.landusepol.2022.106093 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA AR 117 2022 0 |
allfields_unstemmed |
10.1016/j.landusepol.2022.106093 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001735.pica (DE-627)ELV057400156 (ELSEVIER)S0264-8377(22)00120-X DE-627 ger DE-627 rakwb eng 630 640 610 VZ Min, Min verfasserin aut Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Spatial forms Elsevier Chaohu Lake Basin Elsevier Non-spatial forms Elsevier Cultivated land use pattern Elsevier Formation mechanism Elsevier Miao, Changhong oth Duan, Xuejun oth Yan, Wei oth Enthalten in Elsevier Science Son, Yang-Ju ELSEVIER Land use policy 2021 the international journal covering all aspects of land use Amsterdam [u.a.] (DE-627)ELV006296785 volume:117 year:2022 pages:0 https://doi.org/10.1016/j.landusepol.2022.106093 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA AR 117 2022 0 |
allfieldsGer |
10.1016/j.landusepol.2022.106093 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001735.pica (DE-627)ELV057400156 (ELSEVIER)S0264-8377(22)00120-X DE-627 ger DE-627 rakwb eng 630 640 610 VZ Min, Min verfasserin aut Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Spatial forms Elsevier Chaohu Lake Basin Elsevier Non-spatial forms Elsevier Cultivated land use pattern Elsevier Formation mechanism Elsevier Miao, Changhong oth Duan, Xuejun oth Yan, Wei oth Enthalten in Elsevier Science Son, Yang-Ju ELSEVIER Land use policy 2021 the international journal covering all aspects of land use Amsterdam [u.a.] (DE-627)ELV006296785 volume:117 year:2022 pages:0 https://doi.org/10.1016/j.landusepol.2022.106093 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA AR 117 2022 0 |
allfieldsSound |
10.1016/j.landusepol.2022.106093 doi /cbs_pica/cbs_olc/import_discovery/elsevier/einzuspielen/GBV00000000001735.pica (DE-627)ELV057400156 (ELSEVIER)S0264-8377(22)00120-X DE-627 ger DE-627 rakwb eng 630 640 610 VZ Min, Min verfasserin aut Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China 2022transfer abstract nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. Spatial forms Elsevier Chaohu Lake Basin Elsevier Non-spatial forms Elsevier Cultivated land use pattern Elsevier Formation mechanism Elsevier Miao, Changhong oth Duan, Xuejun oth Yan, Wei oth Enthalten in Elsevier Science Son, Yang-Ju ELSEVIER Land use policy 2021 the international journal covering all aspects of land use Amsterdam [u.a.] (DE-627)ELV006296785 volume:117 year:2022 pages:0 https://doi.org/10.1016/j.landusepol.2022.106093 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA AR 117 2022 0 |
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Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China |
abstract |
Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. |
abstractGer |
Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. |
abstract_unstemmed |
Accurate identification and clearly dividing different cultivated land use patterns, and then clarifying their formation mechanisms, are the necessary premises to solve the inefficient utilization of cultivated land resources. Considering the deficiency of the existing research on cultivated land use patterns in integrated classification and formation mechanisms, this study takes the Chaohu Lake Basin, which has undergone major changes in cultivated land use, as the case area and constructs an integrated recognition factor system of different cultivated land use patterns. The classification rules for different cultivated land use patterns were formulated using the decision tree algorithm, and the townships were divided into four patterns: suburban compound operation (SC); grain and economic crop scale operation (GS); grain and economic crop extensive operation (GE); and grain, oil, and cotton scale operation (GOCS). By discussing the fundamental dynamics of cultivated land use spatial and non-spatial form changes, combining the occurrence mechanism of cultivated land use patterns, the general characteristics of cultivated land use in the four patterns are summarized. We found that he essence of cultivated land use pattern differentiation is the cultivated land use forms’ evolution in different stages. The process of cultivated land use pattern differentiation can be divided into three stages, which mainly result from the changes of industrialization, urbanization, and marketization, as well as differences in social culture and government macro-control. Such changes are influenced by both market orientation and system intervention. The GEE pattern appears in the primary stage, while the GES, SC, and GOCS patterns generally appear in the intermediate stage, and the general characteristics of the four cultivated land use patterns are significantly different. This study further enriches the theoretical system of cultivated land use patterns and provides scientific support for the land space optimization regulation path of high-quality agricultural development in the Chaohu Lake Basin. |
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Formation mechanisms and general characteristics of cultivated land use patterns in the Chaohu Lake Basin, China |
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