Shaanxi Weihe Tableland Area of Weeds Land Development and Reclamation Made Cultivated Land Potential Research
DOI:
https://doi.org/10.54097/fbem.v7i3.5557Keywords:
Overall land consolidation, Wasteland, Potential of cultivated land, Reclamation of cultivated land.Abstract
With urban expansion, construction land increase and the implementation of the national policy of dynamic balance, shaanxi weihe tableland area of weeds to becomes the important of land development, supplement cultivated land resources, for how to complex terrain, and shortage of water resources unused developed into available arable land is facing a huge difficulties and challenges. This study tableland area of weihe river under different spatial geographic landform of weeds to unused (grassland) as the research object, research on the soil ecological function and development of weeds to Ken made cultivated land potential research. Crack problem of dynamic balance and cultivated land system innovation factors of supply and security, make tableland area of weihe river for large-scale development and utilization of land, for preparation of villages and towns national spatial planning, global land comprehensive improvement project to provide technical data to support the design and implementation, etc.
Downloads
References
Yue X S, Deng J H. Analysis on the Policy of Comprehensive Land Regulation. Territory & Natural Resources Study. 2020(06):27-29
Luo M, Yang C Y, Zhang X. Thinking of comprehensive land consolidation based on nature. China Land. 2020(08):10-13.
Ma Z H. Feasibility analysis of comprehensive land consolidation: A case study of Jinjitan Town project in Yulin City. Grain Science, Technology and Economy. 2020,45(08):55-57.
Liu Z J. Analysis and countermeasures of water resources supply and demand in Weibei Loess Tablela. Shaanxi Water Resources. 2011, 3:135-136.
Cai H S, Chen M Q, Zhao J N, et al. Discussion on concept and method of classification of land development and consolidation engineering. Transactions of the Chinese Society of Agricultural Engineering. 2009, 25(10): 290-295.
Cai H S, Lin J P, Zhu D H. Cultivated land consolidation planning in Poyang Lake Region based on cultivated land quality evaluation. Transactions of the Chinese Society of Agricultural Engineering,2007,23(5): 75-80.
Zhou J M. Evolution of Soil Quality and Sustainable Use of Soil Resources in China. Bulletin of Chinese Academy of Sciences. 2015,30(4):459-467.
Hu C J, Guo L. Advances in the research of ecological effects of vegetation restoration. Ecology and Environmental Sciences.2012, 21(9): 1640-1646.
Hobley E, Wilson B, Wilkie A, et al. Drivers of soil organic carbon storage and vertical distribution in Eastern Australia. Plant and Soil. 2015, 390:111-127.
Hu PL, Liu SJ, Ye YY, et al. Effects of environmental factors on soil organic carbon under natural or managed vegetation restoration. Land Degradation&Development. 2018, 29:387-397.
Haynes R. Labile organic matter fractions as central components of the quality of agricultural soils: An overview. Advances in Agronomy. 2005, 85:221-268.
Lefroy RDB, Blair GJ, Strong WM. Changes in soil organic matter with cropping as measured by organic carbon fractions and 13C natural isotope abundance. Plant and Soil.1993, 155-156:399-402.
Downloads
Published
Issue
Section
How to Cite
