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基于限制因子的粤北丘陵山区耕地宜机化整治分区
引用本文:刘光盛, 赵乐松, 程迎轩, 周玉婷, 王存越, 林涵冰, 王红梅. 基于限制因子的粤北丘陵山区耕地宜机化整治分区[J]. 农业工程学报, 2021, 37(12): 262-270. DOI: 10.11975/j.issn.1002-6819.2021.12.030
作者姓名:刘光盛  赵乐松  程迎轩  周玉婷  王存越  林涵冰  王红梅
作者单位:1.华南农业大学公共管理学院,广州 510640;2.广东省土地利用与整治重点实验室,广州 510640;3.广东省土地调查规划院,广州 510075
基金项目:国家自然科学基金(41801188),广东省自然科学基金(2018A0303130145),教育部人文社科基金(18YJCZH096)。
摘    要:耕地宜机化整治是推进丘陵山区农业机械化的重要途径.该研究以粤北为研究区,以行政村为评价单元,基于限制因子可改良程度,运用加权求和法和改进障碍度模型确定整治潜力和难度,进而运用四象限法划定耕地宜机化整治分区.结果表明:1)高潜力整治区主要分布在丘陵山地,低潜力整治区主要分布于盆地.2)机耕道建设数量不足,地块较为分散,地...

关 键 词:土地利用  机械化  整治  分区  丘陵山区  粤北
收稿时间:2021-04-01
修稿时间:2021-05-29

Land consolidation zoning of Northern Guangdong for suitable mechanization transformation in hilly and mountainous areas based on limiting factors
Liu Guangsheng, Zhao Lesong, Cheng Yingxuan, Zhou Yuting, Wang Cunyue, Lin Hanbing, Wang Hongmei. Land consolidation zoning of Northern Guangdong for suitable mechanization transformation in hilly and mountainous areas based on limiting factors[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2021, 37(12): 262-270. DOI: 10.11975/j.issn.1002-6819.2021.12.030
Authors:Liu Guangsheng  Zhao Lesong  Cheng Yingxuan  Zhou Yuting  Wang Cunyue  Lin Hanbing  Wang Hongmei
Affiliation:1.School of Public Administration, South China Agricultural University, Guangzhou, Guangdong 510640, China;2.Guangdong Province Key Laboratory of Land Use and Consolidation, Guangzhou, Guangdong 510640, China;3.Guangdong Province Institute of Land Surveying and Planning, Guangzhou, Guangdong 510075, China
Abstract:Abstract: Land consolidation zoning is one of the most important ways for fitting large-medium farm machinery to promote agricultural mechanization and rural revitalization in hilly and mountainous areas. Therefore, reclamation planning is of great significance to effectively allocate resources in modern mechanized agriculture. Taking the hilly and mountainous area of northern Guangdong of China as the research area, this study aims to construct the evaluation index system of mechanization potential for large-medium farm machinery in a cultivated land using limiting factors. Two dimensions were also selected, including agricultural machinery accessibility and operation convenience. An improved obstacle degree model was used to identify the dominant limiting factors of cultivated land consolidation for fitting large-medium farm machinery. The improvement difficulty was then determined, according to the restriction degree and difficulty coefficient of dominant limiting factors. A suitable mechanized improvement zoning of cultivated land was delimited using the improvement potential and difficulty. A regional improvement strategy was finally proposed for the study area during this time. The results showed that: 1) There was obviously spatial differentiation of cultivated land consolidation for fitting large-medium farm machinery in the study area. The high potential improvement area was mainly distributed in the hilly areas, whereas, the low potential improvement area was mainly distributed in the basin areas. 2) The insufficient number of cultivated land construction was found to significantly restrict the mechanization for the relatively scattered and irregular shape of plots. 3) The difficulty distribution areas were generally consistent with the potential for improvement. The areas with greater difficulty were the mountainous areas with obvious limitation of the machine-ploughing track, where less difficulty was observed in the basins; particularly those were subjected to the land contiguous conditions and irregular shapes. 4) The priority area presented a great potential and small difficulty, indicating an obvious restriction from the contiguity and regular shape of the land. Additionally, there were limited potential and difficulty in the minor consolidation areas. Land consolidation can also be carried out using simple projects, such as the merging of fields. There were also high potential and difficulty in the comprehensive consolidation areas. Correspondingly, there were several limiting factors with a relatively large degree of restriction. It also needed to be remedied using comprehensive engineering during this time. Additionally, the ideal mechanization production was found in the backup improvement area, where the potential was small and difficult in the study area. It is necessary to invest a lot to further improve the mechanization level of cultivated land. 5) Special planning is highly urgent to formulate the relevant technical standards for the mechanization of cultivated land. Different types of cultivated land consolidation need to formulate the fitting large-medium farm machinery, according to local conditions, such as interconnection plots, horizontal strip fields, horizontal terraces, gentle slope dry land, and terrace dry land. 6) The remediation zoning was support to spatial guidance of cultivated land consolidation for fitting large-medium farm machinery using the potential and difficulty of remediation, particularly on selecting targeted objects of cropland mechanized remediation. The finding can also provide a promising reference for similar areas to carry out the cultivated land consolidation for fitting large-medium farm machinery.
Keywords:land use   mechanization   consolidation   zoning   hilly and mountain area   northern Guangdong Province
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