|Table of Contents|

Spatio-temporal Evolution of Black Cropland Productivity in Northeast China and Its Promotion Countermeasures(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2023年第02期
Page:
338-349
Research Field:
环境与可持续发展
Publishing date:

Info

Title:
Spatio-temporal Evolution of Black Cropland Productivity in Northeast China and Its Promotion Countermeasures
Author(s):
DU Guo-ming1 SUN Jia-man1 LI Yu-heng23*
(1. School of Public Administration and Law, Northeast Agricultural University, Harbin 150030, Heilongjiang, China; 2. Key Laboratory of Regional Sustainable Development Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China; 3. College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 100190, China)
Keywords:
black cropland productivity crop MAD spatio-temporal characteristic improvement potential protection Northeast China
PACS:
F301.2; P237
DOI:
10.19814/j.jese.2022.04044
Abstract:
Research on the spatio-temporal evolution patterns of black cropland productivity changes in Northeast China is essential to protect black cropland and ensure food security in China. Basing on MODIS-EVI data, the threshold method was used to characterize the productivity changes of black cropland in Northeast China by the most active day(MAD). The spatio-temporal evolution and productivity improvement potential of black cropland in Northeast China were revealed. The results show that ① the overall black cropland productivity decreases from the middle-south to the northwest of Northeast China, with crop MAD major levels being 2 to 4, and the planting concentration areas are mainly distributed in the eastern part of Songnen Plain and the central-western part of Sanjiang Plain; ② the overall black cropland productivity in Northeast China shows a trend of increasing and then decreasing during 2010 to 2018; among them, about 70% of black cropland productivity remains stable with a significant increase of 3.99% and a significant decrease of 24.88%; ③ the overall improvement potential of black cropland productivity in Northeast China is in a medium level, and its spatial distribution is “high in the west and low in the east” with less black cropland having more improvement potential. Basing on the above research results, and regarding the Lishu model and the Longjiang model, the policy suggestions for improving black cropland productivity and protection were proposed to solve the problems of “thinning, leaning, and hardening” of black cropland.

References:

[1] 陈秧分,王介勇,张凤荣,等.全球化与粮食安全新格局[J].自然资源学报,2021,36(6):1362-1380.
CHEN Yang-fen,WANG Jie-yong,ZHANG Feng-rong,et al.New Patterns of Globalization and Food Security[J].Journal of Natural Resources,2021,36(6):1362-1380.
[2] 牛善栋,方 斌.中国耕地保护制度70年:历史嬗变、现实探源及路径优化[J].中国土地科学,2019,33(10):1-12.
NIU Shan-dong,FANG Bin.Cultivated Land Protection System in China from 1949 to 2019:Historical Evolution,Realistic Origin Exploration and Path Optimization[J].China Land Science,2019,33(10):1-12.
[3] 吴心怡,金晓斌,韩 博,等.2001~2017年四川省耕地产能变化与潜力特征分析[J].农业工程学报,2021,37(3):238-249.
WU Xin-yi,JIN Xiao-bin,HAN Bo,et al.Characteristics of Cultivated Land Productivity Change and Potential During 2001-2017 in Sichuan Province,China[J].Transactions of the Chinese Society of Agricultural Engineering,2021,37(3):238-249.
[4] 漆信贤,张志宏,黄贤金.面向新时代的耕地保护矛盾与创新应对[J].中国土地科学,2018,32(8):9-15.
QI Xin-xian,ZHANG Zhi-hong,HUANG Xian-jin.The Contradiction of Cultivated Land Protection in the New Era and Its Innovative Countermeasures[J].China Land Science,2018,32(8):9-15.
[5] WANG L Y,ANNA H,ZHANG L Y,et al.Spatial and Temporal Changes of Arable Land Driven by Urbanization and Ecological Restoration in China[J].Chinese Geographical Science,2019,29(5):809-819.
[6] CHEN A,HE H,WANG J,et al.A Study on the Arable Land Demand for Food Security in China[J].Sustainability,2019,11(17):4769.
[7] WANG C,SIRIWARDANA M,MENG S.Effects of the Chinese Arable Land Fallow System and Land-use Change on Agricultural Production and on the Economy[J].Economic Modelling,2019,79:186-197.
[8] 刘正佳,钟会民,李裕瑞,等.近20年中国粮食生产变化特征及其对区域粮食供需格局的影响[J].自然资源学报,2021,36(6):1413-1425.
LIU Zheng-jia,ZHONG Hui-min,LI Yu-rui,et al.Change in Grain Production in China and Its Impacts on Spatial Supply and Demand Distributions in Recent Two Decades[J].Journal of Natural Resources,2021,36(6):1413-1425.
[9] 刘立涛,刘晓洁,伦 飞,等.全球气候变化下的中国粮食安全问题研究[J].自然资源学报,2018,33(6):927-939.
LIU Li-tao,LIU Xiao-jie,LUN Fei,et al.Research on China's Food Security Under Global Climate Change Background[J].Journal of Natural Resources,2018,33(6):927-939.
[10] 刘宝元,张甘霖,谢 云,等.东北黑土区和东北典型黑土区的范围与划界[J].科学通报,2021,66(1):96-106.
LIU Bao-yuan,ZHANG Gan-lin,XIE Yun,et al.Delineating the Black Soil Region and Typical Black Soil Region of Northeastern China[J].Chinese Science Bu-lletin,2021,66(1):96-106.
[11] 刘洪彬,李顺婷,吴梦瑶,等.耕地数量、质量、生态“三位一体”视角下我国东北黑土地保护现状及其实现路径选择研究[J].土壤通报,2021,52(3):544-552.
LIU Hong-bin,LI Shun-ting,WU Meng-yao,et al.Current Situation and Perspectives of Black Soil Protection from the Integrated Angle of Quantity,Quality,and Ecology in Northeast China[J].Chinese Journal of Soil Science,2021,52(3):544-552.
[12] 路 中,雷国平,王居午,等.30年来东北典型黑土区水土流失敏感性时空分异特征研究[J].自然灾害学报,2019,28(4):186-195.
LU Zhong,LEI Guo-ping,WANG Ju-wu,et al.Spatial-temporal Variation Characteristics of Soil and Water Loss Sensitivity in Typical Black Soil Regions in Northeast China in the Past 30 Years[J].Journal of Natural Disasters,2019,28(4):186-195.
[13] 武红亮,王士超,槐圣昌,等.近30年来典型黑土肥力和生产力演变特征[J].植物营养与肥料学报,2018,24(6):1456-1464.
WU Hong-liang,WANG Shi-chao,HUAI Sheng-chang,et al.Evolutionary Characteristics of Fertility and Pro-ductivity of Typical Black Soil in Recent 30 Years[J].Journal of Plant Nutrition and Fertilizers,2018,24(6):1456-1464.
[14] 韩晓增,李 娜.中国东北黑土地研究进展与展望[J].地理科学,2018,38(7):1032-1041.
HAN Xiao-zeng,LI Na.Research Progress of Black Soil in Northeast China[J].Scientia Geographica Sinica,2018,38(7):1032-1041.
[15] 康日峰,任 意,吴会军,等.26年来东北黑土区土壤养分演变特征[J].中国农业科学,2016,49(11):2113-2125.
KANG Ri-feng,REN Yi,WU Hui-jun,et al.Changes in the Nutrients and Fertility of Black Soil over 26 Years in Northeast China[J].Scientia Agricultura Sinica,2016,49(11):2113-2125.
[16] 张立江,汪景宽,裴久渤,等.东北典型黑土区耕地地力评价与障碍因素诊断[J].中国农业资源与区划,2017,38(1):110-117.
ZHANG Li-jiang,WANG Jing-kuan,PEI Jiu-bo,et al.Evaluation of Cultivated Land Fertility and Its Obstacle Factores Diagnosis in the Typical Black Soil Area of Northeast China[J].Chinese Journal of Agricultu-ral Resources and Regional Planning,2017,38(1):110-117.
[17] HALLAMA M,PEKRUN C,LAMBERS H,et al.Hidden Miners:The Roles of Cover Crops and Soil Microorganisms in Phosphorus Cycling Through Agroecosystems[J].Plant and Soil,2019,434(1/2):7-45.
[18] 伍育鹏,郧文聚,邹 如.基于耕地质量评价的耕地产能核算方法及分布[J].农业工程学报,2008,24(增1):85-89.
WU Yu-peng,YUN Wen-ju,ZOU Ru.Productivity Calculation Methods and Distribution Regulation Ba-sed on Cultivated Land Quality Appraisal[J].Tran-sactions of the Chinese Society of Agricultural Engineering,2008,24(S1):85-89.
[19] SMYTH S J,PHILLIPS P W B,KERR W A.Food Security and the Evaluation of Risk[J].Global Food Security,2015,4:16-23.
[20] 李晓亮,吴克宁,褚献献,等.耕地产能评价研究进展与展望[J].中国土地科学,2019,33(7):91-100.
LI Xiao-liang,WU Ke-ning,CHU Xian-xian,et al.Research Progress and Prospects for Cultivated Land Productivity Evaluation[J].China Land Science,2019,33(7):91-100.
[21] 封志明,杨艳昭,张 晶,等.从栅格到县域:中国粮食生产的资源潜力区域差异分析[J].自然资源学报,2007,22(5):747-755,854.
FENG Zhi-ming,YANG Yan-zhao,ZHANG Jing,et al.A GIS Based Study on the Grain Productivity and Potential Yield Increase at Multi-levels in China[J].Journal of Natural Resources,2007,22(5):747-755,854.
[22] HOOBLER B M,VANCE G F,HAMERLINCK J D,et al.Applications of Land Evaluation and Site Assessment(LESA)and a Geographic Information System(GIS)in East Park County,Wyoming[J].Journal of Soil and Water Conservation,2003,58(2):105-112.
[23] DUNG E J,SUGUMARAN R.Development of an Agricultural Land Evaluation and Site Assessment(LESA)Decision Support Tool Using Remote Sen-sing and Geographic Information System[J].Journal of Soil and Water Conservation,2005,60(5):228-235.
[24] 吴绍洪,靳 京,戴尔阜.基于PS123作物生长模型的黑龙江海伦市玉米生产潜力计算[J].农业工程学报,2005,21(8):93-97.
WU Shao-hong,JIN Jing,DAI Er-fu.PS123 Crop Growth Model Based Method to Calculate Potential Maize Productivity in Hailun,Heilongjiang[J].Transactions of the Chinese Society of Agricultural Engineering,2005,21(8):93-97.
[25] 王令超,王国强,杨建波,等.农用地分等中作物生产潜力空间插值方法研究[J].农业工程学报,2006,22(2):89-93.
WANG Ling-chao,WANG Guo-qiang,YANG Jian-bo,et al.Spatial Interpolation Method of Crop Productive Potentiality for the Classification of Agricultural Land[J].Transactions of the Chinese Society of Agricultural Engineering,2006,22(2):89-93.
[26] 陈 丽,郝晋珉,艾 东,等.基于改进农业生态区划法的耕地综合量能指数模型构建[J].农业工程学报,2014,30(20):268-276.
CHEN Li,HAO Jin-min,AI Dong,et al.Comprehensive Index Model Building of Cultivated Land Yield and Productivity Based on Improved Agro-ecological Zoning Method[J].Transactions of the Chinese Society of Agricultural Engineering,2014,30(20):268-276.
[27] 陈东湘,周生路,吴绍华.基于遥感评价城市扩张对耕地质量等级结构及产能的影响[J].农业工程学报,2017,33(13):264-269.
CHEN Dong-xiang,ZHOU Sheng-lu,WU Shao-hua.Impacts of Urban Sprawl on Agricultural Land Quality Grade Structure and Potential Production Based on Remote Sensing[J].Transactions of the Chinese Society of Agricultural Engineering,2017,33(13):264-269.
[28] ECKERT S,HÜSLER F,LINIGER H,et al.Trend Analysis of MODIS NDVI Time Series for Detecting Land Degradation and Regeneration in Mongolia[J].Journal of Arid Environments,2015,113:16-28.
[29] GARROUTTE E L,HANSEN A J,LAWRENCE R L.Using NDVI and EVI to Map Spatiotemporal Varia-tion in the Biomass and Quality of Forage for Migratory Elk in the Greater Yellowstone Ecosystem[J].Remote Sensing,2016,8(5):404.
[30] HUETE A R.Vegetation Indices,Remote Sensing and Forest Monitoring[J].Geography Compass,2012,6(9):513-532.
[31] XU W,JIN J,JIN X,et al.Analysis of Changes and Potential Characteristics of Cultivated Land Productivity Based on MODIS EVI:A Case Study of Jiangsu Province,China[J].Remote Sensing,2019,11(17):2041.
[32] SHI H,LI L H,EAMUS D,et al.Assessing the Abi-lity of MODIS EVI to Estimate Terrestrial Ecosystem Gross Primary Production of Multiple Land Cover Types[J].Ecological Indicators,2017,72:153-164.
[33] 张 超,陈婉铃,马佳妮,等.基于时序EVI的2000~2019年吉林省耕地生产力时空分析[J].农业机械学报,2022,53(2):158-166.
ZHANG Chao,CHEN Wan-ling,MA Jia-ni,et al.Analysis on Spatial-temporal Changes of Cultivated Land Productivity in Jilin Province from 2000 to 2019 Based on EVI Time Series[J].Transactions of the Chinese Society for Agricultural Machinery,2022,53(2):158-166.
[34] 李祎君,吕厚荃.气候变化背景下农业气象灾害对东北地区春玉米产量影响[J].作物学报,2022,48(6):1537-1545.
LI Yi-jun,LYU Hou-quan.Effect of Agricultural Meteo-rological Disasters on the Production Corn in the Northeast China[J].Acta Agronomica Sinica,2022,48(6):1537-1545.
[35] 魏 丹,匡恩俊,迟凤琴,等.东北黑土资源现状与保护策略[J].黑龙江农业科学,2016(1):158-161.
WEI Dan,KUANG En-jun,CHI Feng-qin,et al.Status and Protection Strategy of Black Soil Resources in Northeast of China[J].Heilongjiang Agricultural Sciences,2016(1):158-161.
[36] 宋 戈,邹朝晖,王 越.东北粮食主产区县域耕地产能核算及其影响因子分析[J].农业工程学报,2014,30(24):308-317.
SONG Ge,ZOU Zhao-hui,WANG Yue.Calculation of County Cultivated Land Productivity and Its Analysis of Influential Factors of Grain Main Production Area in Northeast China[J].Transactions of the Chinese Society of Agricultural Engineering,2014,30(24):308-317.
[37] ZSCHEISCHLER J,FATICHI S,WOLF S,et al.Short-term Favorable Weather Conditions Are an Important Control of Interannual Variability in Carbon and Water Fluxes[J].Journal of Geophysical Research:Biogeosciences,2016,121(8):2186-2198.
[38] 姚东恒,裴久渤,汪景宽.东北典型黑土区耕地质量时空变化研究[J].中国生态农业学报,2020,28(1):104-114.
YAO Dong-heng,PEI Jiu-bo,WANG Jing-kuan.Tem-poral-spatial Changes in Cultivated Land Quality in a Black Soil Region of Northeast China[J].Chinese Journal of Eco-agriculture,2020,28(1):104-114.
[39] 王晓峰,曹建农,卫新东,等.基于农用地分等成果的耕地产能核算研究:以陕西省扶风县为例[J].陕西师范大学学报(自然科学版),2010,38(6):89-93.
WANG Xiao-feng,CAO Jian-nong,WEI Xin-dong,et al.Study on Cultivated Land Productivity Calculation Based on Agricultural Land Classification:A Case Study of Fufeng County,Shaanxi Province[J].Journal of Shaanxi Normal University(Natural Science Edition),2010,38(6):89-93.
[40] 苏 浩,吴次芳.东北黑土区耕地系统变化机理[J].农业工程学报,2021,37(6):243-251.
SU Hao,WU Ci-fang.Mechanism of Cultivated Land System Change in Black Soil Areas of Northeast China[J].Transactions of the Chinese Society of Agricultural Engineering,2021,37(6):243-251.
[41] 汪景宽,徐香茹,裴久渤,等.东北黑土地区耕地质量现状与面临的机遇和挑战[J].土壤通报,2021,52(3):695-701.
WANG Jing-kuan,XU Xiang-ru,PEI Jiu-bo,et al.Current Situations of Black Soil Quality and Facing Opportunities and Challenges in Northeast China[J].Chinese Journal of Soil Science,2021,52(3):695-701.
[42] 梁爱珍,张 延,陈学文,等.东北黑土区保护性耕作的发展现状与成效研究[J].地理科学,2022,42(8):1325-1335.
LIANG Ai-zhen,ZHANG Yan,CHEN Xue-wen,et al.Development and Effects of Conservation Tillage in the Black Soil Region of Northeast China[J].Scientia Geographica Sinica,2022,42(8):1325-1335.
[43] 廖晓勇,姚启星,万小铭,等.黑土粮仓全域定制模式的理论基础与技术路径[J].地理学报,2022,77(7):1634-1649.
LIAO Xiao-yong,YAO Qi-xing,WAN Xiao-ming,et al.Theoretical Basis and Technical Path of the Regional All-for-one Customization Model of Black Soil Granary[J].Acta Geographica Sinica,2022,77(7):1634-1649.
[44] 邓祥征,梁 立,廖晓勇,等.国际粮食贸易影响下东北黑土地生产压力变化与保护策略[J].自然资源学报,2022,37(9):2209-2217.
DENG Xiang-zheng,LIANG Li,LIAO Xiao-yong,et al.Research on Changes in Grain Production Pressure and Protection Strategies in the Black Soil Region of Northeast China Under the Influence of International Grain Trade[J].Journal of Natural Resources,2022,37(9):2209-2217.
[45] 杜国明,盖兆雪,王洪彦.中国耕地细碎化的理论解析与研究框架[J].地球科学与环境学报,2021,43(6):997-1008.
DU Guo-ming,GAI Zhao-xue,WANG Hong-yan.Theoretical Explanation and Research Framework of Cultivated-land Fragmentation in China[J].Journal of Earth Sciences and Environment,2021,43(6):997-1008.
[46] 杜国明,张 瑞,于凤荣.基于地学信息图谱的东北黑土区种植模式分析[J].应用生态学报,2022,33(3):694-702.
DU Guo-ming,ZHANG Rui,YU Feng-rong.Analysis of Cropping Pattern in Black Soil Region of Northeast China Based on Geo-information Tupu[J].Chinese Journal of Applied Ecology,2022,33(3):694-702.

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Last Update: 2023-05-20