Bulletin of Chinese Academy of Sciences (Chinese Version)


Black Soil Granary, Strategic Priority Research Program, national food security, modern agriculture, sustainable development

Document Type

Science and Technology Boosting Black Soil Granary Construction - Science and Technology Implementation


The Science and Technology Innovation Project of Black Soil Conservation and Utilization (Black Soil Granary) is a Strategic Priority Research Program of Chinese Academy of Sciences (CAS), it is the core measure of the "Science and Technology (Sci-Tech) Campaign for Black Soil Granary" launched by CAS together with provinces and autonomous region of Northeast China, and also the core measures to implement General Secretary Xi Jinping's series guiding principle relating to well utilize and protect the black soil in Northeast China. Better utilization and protection of black soil is crucially important to the national food security, and the program of Black Soil Granary aims to solve the key major scientific problems for black soil. According to the principles of question-oriented, led by innovation, and promoted by demonstration, the program will conduct key technological breakthroughs and demonstrating mature technologies following the specification of "purposeful, assessable, applicable, influential, popularizable, and continuable". It is expected that, through the implementation of the Black Soil Granary program, Chinese Academy of Sciences can provide systematic resolutions for the better utilization and protection of black soil, and support national food security and modern agriculture development.

First page


Last Page





Bulletin of Chinese Academy of Sciences

Original Submission Date



1 孟凯. 关于黑土的退化问题. 土壤, 1992, 24(2):108-111. 2 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. 科学通报, 2021, 66(1):96-106. 3 韩晓增, 李娜. 中国东北黑土地研究进展与展望. 地理科学, 2018, 38(7):1032-1041. 4 Lal R. Soil degradation by erosion. Land Degradation & Development, 2001, 12(6):519-539. 5 张兴义, 张少良, 刘爽, 等. 严重侵蚀退化黑土农田地力快速提升技术研究. 水土保持研究, 2010, 17(4):1-5. 6 朱永官, 彭静静, 韦中, 等. 土壤微生物组与土壤健康. 中国科学:生命科学, 2021, 51(1):1-11. 7 高焕文, 李问盈, 李洪文. 中国特色保护性耕作技术. 农业工程学报, 2003, 19(3):1-4. 8 Backer R, Rokem S, Ilangumaran G, et al. Plant growth-promoting rhizobacteria:Context, mechanisms of action, and roadmap to commercialization of biostimulants for sustainable agriculture. Frontiers in Plant Science, 2018, 9:1473. 9 Singh M, Singh D, Gupta A, et al. Plant growth promoting rhizobacteria//PGPR Amelioration in Sustainable Agriculture. Amsterdam:Elsevier, 2019:41-66. 10 郑文钟. 国外智能化农机装备简介. 新农村, 2016, (2):34-35. 11 孙凝晖, 张玉成, 石晶林. 构建我国第三代农机的创新体系. 中国科学院院刊, 2020, 35(2):154-165. 12 刘纪远, 匡文慧, 张增祥, 等. 20世纪80年代末以来中国土地利用变化的基本特征与空间格局. 地理学报, 2014, 69(1):3-14 13 Dong J, Xiao X, Menarguez M A, et al. Mapping paddy rice planting area in northeastern Asia with Landsat 8 images, phenology-based algorithm and Google Earth Engine. Remote Sensing of Environment, 2016, 185:142-154.