张甘霖，男，汉族，1966年8月生，湖北通山县人，研究生学历、博士学位。二级研究员、博士生导师。1990年8月参加工作，1994年2月加入中国农工民主党。

现任农工党江苏省委会副主委，中国科学院南京地理与湖泊研究所所长，中国科学院南京土壤研究所土壤与农业可持续发展国家重点实验室主任。

1987年，在华中农业大学大学获得农学学士。

1993年，在中国科学院南京土壤研究所获得理学博士学位。

2001年，晋升中国科学院南京土壤研究所研究员，博士生导师。

2011年6月至2014年3月，任土壤与农业可持续发展国家重点实验室常务副主任。

2014年3月至2015年11月，任中科院南京土壤研究所副所长、土壤与农业可持续发展国家重点实验室常务副主任。

2015年12月至2018年4月，任中科院南京土壤研究所副所长、土壤与农业可持续发展国家重点实验室主任。

2018年5月，任中科院南京土壤研究所土壤与农业可持续发展国家重点实验室主任。

2019年5月，任中国科学院南京地理与湖泊研究所所长，南京土壤研究所土壤与农业可持续发展国家重点实验室主任。

现任农工党江苏省委会副主委，中国科学院南京地理与湖泊研究所所长，南京土壤研究所土壤与农业可持续发展国家重点实验室主任。

第十四届全国政协委员，中国农工民主党第十七届中央常务委员会委员，中国人民政治协商会议江苏省第十二届委员会委员，国际土壤科学联合会土壤发生委员会副主席，国际土壤科学联合会城市土壤工作组副主席，土壤发生委员会副主席；全国土壤质量标准化技术委员会委员；中国土壤学会理事、土壤发生、分类和土壤地理专业委员会主任；全球数字土壤制图网络亚洲中心负责人；《Geoderma》、《土壤学报》、《干旱区研究》编委。

2018年1月29日，政协江苏省第十二届委员会第一次常委会会议，张甘霖同志当选省十二届政协人口资源环境委员会副主任。

土壤发生、土壤分类、土壤制图和资源评价、城市土壤。

在土壤发生、土壤分类、土壤制图、土壤资源信息系统与评价、城市土壤等方面发表论文140多篇，其中SCI收录30多篇。获得授权专利2个。出版专著共8部。

参考资料

参考资料

一、期刊论文

1.1 英文论文

[1]Wu, Huayong, Adams, Jonathan M., Shi, Yu, Li, Yuntao, Song, Xiaodong, Zhao, Xiaorui, Chu, Haiyan, Zhang, Gan-Lin. 2020. Depth-Dependent Patterns of Bacterial Communities and Assembly Processes in a Typical Red Soil Critical Zone. Geomicrobiology Journal, 37: 201-212.

[2]Song XD, Liu F, Wu HY, Cao Q, Zhong C, Yang JL, Li DC, Zhao YG, Zhang GL. 2020. Effects of long-term K 受精卵 on soil available 钾 in East China. Catena, 188: 104412.

[3]Song XD, Wu HY, Ju B, Liu F, Yang F, Li DC, Zhao YG, Yang JL, Zhang GL, 2020. Pedoclimatic zone-based three-dimensional soil organic 碳 mapping in China. Geoderma, 363: 114145.

[4]Cao Q, Song XD, Wu HY, Gao L, Liu F, Yang SH, Zhang, GL, 2020. Mapping the response of volumetric soil H₂O content to 1 an intense rainfall event at the field scale using GPR. Journal of Hydrology, 583: 124605.

[5]Song XD, Wu HY, Hallett PD, pan XC, Hu XF, Cao Q, Zhao XR, Zhang GL, 2020. Paleotopography continues to drive surface to deep-layer interactions in a subtropical Critical Zone Observatory. Journal of Applied Geophysics, 175: 103987.

[6]Liu Feng, Rossiter David G., Song Xiaodong, Zhang Gan-Lin, Wu Huayong, Zhao Yuguo, 2020. An approach for broad-scale p红色ictive soil properties mapping in low-relief areas based on responses to solar radiation. Soil Sci. Soc. Am. J., 84: 144-162.

[7]Chen, Songchao, Liang, Zongzheng, Webster, Richard, Zhang, Ganlin, Zhou, Yin, Teng, Hongfen, Hu, Bifeng, Arrouays, Dominique, Shi, Zhou. 2019. A high-resolution map of soil pH in China made by hybrid modelling of sparse soil 数据 and environmental covariates and its implications for pollution. Science of the Total Environment, 655: 273-283.

[8]Wu, Huayong, Song, Xiaodong, Zhao, Xiaorui, Peng, Xinhua, Zhou, Hu, Hallett, Paul D., Hodson, Mark E., Zhang, Gan-Lin. 2019. Accumulation of nitrate and dissolved organic 氮 at depth in a red soil Critical Zone. Geoderma, 337: 1175-1185.

[9]Zhao, Xiao-Rui, Wu, Hua-Yong, Song, Xiao-越南盾, Yang, Shun-Hua, Dong, Yue, Yang, Jin-Ling, Zhang, Gan-Lin. 2019. Intra-地平线 differentiation of the bacterial community and its co-occurrence network in a typical Plinthic horizon. Science of the Total Environment, 678: 692-701.

[10]Lu Yuan-Yuan, Liu Feng, Zhao Yu-Guo, Song Xiao-越南盾, Zhang Gan-Lin. 2019. An integrated method of selecting environmental covariates for predictive soil depth mapping. Journal of Integrative Agriculture, 18: 301-315.

[11]Yang, Shun-Hua, Liu, Feng, Song, Xiao-越南盾, Lu, Yuan-Yuan, Li, De-Cheng, Zhao, Yu-Guo, Zhang, Gan-Lin. 2019. Mapping topsoil electrical conductivity by a mixed geographically weighted regression kriging: A case study in the Heihe River Basin, northwest China. Ecological Indicators, 102: 252-264.

[12]Song, Xiao-Dong, Wu, Hua-Yong, Liu, Feng, Tian, Jian, Cao, Qi, Yang, Shun-Hua, Peng, Xin-Hua, Zhang, Gan-Lin. 2019. Three-Dimensional Mapping of Organic 碳 using Piecewise Depth Functions in the Red Soil Critical Zone Observatory. Soil Science Society of America Journal, 83: 687-696.

[13]Yang, Jin-Ling, Zhang, Gan-Lin. 2019. Si cycling and isotope fractionation: Implications on 风化作用 and soil formation processes in a typical subtropical 面积 Geoderma, 337: 479-490.

[14]Liu, S., Zhang, Z. B., Li, D. M., Hallett, P. D., Zhang, G. L., Peng, X. H. 2019. Temporal 动力学 and vertical distribution of newly-derived carbon from a C-3/C-4 conversion in an Ultisol after 30-yr 受精卵 Geoderma, 337: 1077-1085.

[15]Zeng, R., Rossiter, D. G., Zhang, G. L. 2019. How compatible are numerical classifications based on whole-profile vis-NIR spectra and the Chinese Soil 鲾科? European Journal of Soil Science, 70: 54-65.

[16]Zhang, Ganlin, Zhu, Yongguan, Shao, Ming'an. 2019. Understanding sustainability of soil and H₂O resources in a critical zone 透视 Science China-地球 Sciences, 62: 1716-1718.

[17]Wu, Huayong, Song, Xiaodong, Zhao, Xiaorui, Zhang, Gan-Lin. 2019. Conversion from Upland to Paddy Field Intensifies Human Impacts on Element Behavior through Regolith. Vadose Zone Journal, 18.

[18]Hu, Xue-Feng, Zhao, Jing-Long, Zhang, Pei-Feng, Xue, Yong, An, Bo-Nian, Huang, Fang, Yu, Hui-Min, Zhang, Gan-Lin, Liu, Xiang-Jun. 2019. Fe isotopic composition of the Quaternary Red Clay in subtropical Southeast China: Redoxic Fe mobility and its paleoenvironmental implications. Chemical Geology, 524: 356-367.

[19]Ding, Jinzhi, Wang, Tao, Piao, Shilong, Smith, Pete, Zhang, Ganlin, Yan, Zhengjie, Ren, Shuai, Liu, Dan, Wang, Shiping, Chen, Shengyun, Dai, Fuqiang, He, Jinsheng, Li, Yingnian, Liu, Yongwen, Mao, Jiafu, Arain, Altaf, Tian, Hanqin, Shi, Xiaoying, Yang, Yuanhe, Zeng, Ning, Zhao, Lin. 2019. The paleoclimatic footprint in the soil 碳 stock of the Tibetan permafrost region. Nature Communications, 10.

[20]Song, Xiao-Dong, Yang, Jian-Yi, Zhao, Ming-Song, Zhang, Gan-Lin, Liu, Feng, Wu, Hua-Yong. 2019. Heuristic cellular automaton model for simulating soil organic 碳 under land use and climate change: A case study in eastern China. Agriculture Ecosyst子宫内膜异位症 \u0026 Environment, 269: 156-166.

[21]Tian, Liming, Zhao, Lin, Wu, Xiaodong, Fang, Hongbing, Zhao, Yonghua, Hu, Guojie, Yu, Guangyang, Sheng, Yu, Wu, Jichun, Chen, Ji, Wang, Zhiwei, Li, Wangping, Zou, Defu, Ping, Chien-Lu, Shang, Wen, Zhao, Yuguo, Zhang, Ganlin. 2018. Soil moisture and texture primarily control the soil nutrient stoichiometry across the Tibetan grassland. Science of the Total Environment, 622: 192-202.

[22]Song, Xiao-Dong, Yang, Fan, Ju, Bing, Li, De-Cheng, Zhao, Yu-Guo, Yang, Jin-Ling, Zhang, Gan-Lin. 2018. The influence of the conversion of grassland to cropland on changes in soil organic 碳 and total 氮 stocks in the Songnen Plain of Northeast China. Catena, 171: 588-601.

[23]Richter, Daniel D., Billings, Sharon A., Groffman, Peter M., Kelly, Eugene F., Lohse, Kathleen A., McDowell, William H., White, Timothy S., Anderson, Suzanne, Baldocchi, Dennis D., Banwart, Steve, Brantley, Susan, Braun, Jean J., Brecheisen, Zachary S., Cook, Charles W., Hartnett, Hilairy E., Hobbie, Sarah E., Gaillardet, Jerome, Jobbagy, Esteban, Jungkunst, Hermann F., Kazanski, Clare E., Krishnaswamy, Jagdish, Markewitz, Daniel, O'Neill, Katherine, Riebe, Clifford S., Schroeder, Paul, Siebe, Christina, Silver, Whendee L., Thompson, Aaron, Verhoef, Anne, Zhang, Ganlin. 2018. Ideas and perspectives: Strengthening the biogeosciences in environmental research networks. Biogeosciences, 15: 4815-4832.

[24]Yang, Jin-Ling, Zhang, Gan-Lin. 2018. 硅 cycling by plant and its effects on soil Si translocation in a typical subtropical 面积 Geoderma, 310: 89-98.

[25]Huang, Lai-Ming, Jia, Xiao-Xu, Zhang, Gan-Lin, Thompson, Aaron, Huang, Fang, Shao, Min-An, Chen, Liu-Mei. 2018. Variations and controls of iron oxides and isotope compositions during paddy soil evolution over a millennial 时间 scale. Chemical Geology, 476: 340-351.

[26]Liu, Yi, Shi, Zhou, Zhang, Ganlin, Chen, Yiyun, Li, Shuo, Hong, Yongshen, Shi, Tiezhu, Wang, Junjie, Liu, Yaolin. 2018. Application of Spectrally Derived Soil Type as Ancillary 数据 to Improve the Estimation of Soil Organic 碳 by Using the Chinese Soil Vis-NIR Spectral Library. Remote sensing, 10.

[27]Huang, Lai-Ming, Shao, Min-An, Huang, Fang, Zhang, Gan-Lin. 2018. Effects of human activities on pedogenesis and iron 动力学 in paddy soils developed on Quaternary red clays. Catena, 166: 78-88.

[28]Huang, Laiming, Jia, Xiaoxu, Shao, Ming'an, Chen, Liumei, Han, Guangzhong, Zhang, Ganlin. 2018. Phases and rates of iron and magnetism changes during paddy soil development on calcareous marine sediment and acid Quaternary red-clay. Scientific Reports.

[29]Zhi Junjun, Zhang Ganlin, Yang Renmin, Yang Fei, Jin Chengwei, Liu Feng, Song Xiaodong, Zhao Yuguo, Li Decheng. 2018. An Insight into Machine Learning Algorithms to Map the Occurrence of the Soil Mattic 地平线 in the Northeastern Qinghai-Tibetan 高原 Pedosphere, 28: 739-750.

[30]Zhao, Yongcun, Wang, Meiyan, Hu, Shuijin, Zhang, Xudong, Ouyang, Zhu, Zhang, Ganlin, Huang, Biao, Zhao, Shiwei, Wu, Jinshui, Xie, Deti, Zhu, Bo, Yu, Dongsheng, pan, Xianzhang, Xu, Shengxiang, Shi, Xuezheng. 2018. Economics- and policy-driven organic 碳 input enhancement dominates soil organic carbon accumulation in Chinese croplands. PNAS, 115: 4045-4050.

[31]Yang Fan, Huang Laiming, Yang Renmin, Yang Fei, Li Decheng, Zhao Yuguo, Yang Jinling, Liu Feng, Zhang Ganlin. 2018. Vertical distribution and storage of soil organic and inorganic 碳 in a typical inland river basin, Northwest China. Journal of Arid Land, 10: 183-201.

[32]Zhang Gan-lin, Liu Feng, Song Xiao-越南盾 2017. Recent progress and future prospect of digital soil mapping: A review. Journal of Integrative Agriculture, 16: 2871-2885.

[33]Huang, Lai-Ming, Jia, Xiao-Xu, Zhang, Gan-Lin, Shao, Min-An. 2017. Soil organic 磷 transformation during ecosystem development: A review. Plant and Soil, 417: 17-42.

[34]Rossiter, David G., Zeng, Rong, Zhang, Gan-Lin. 2017. Accounting for taxonomic distance in accuracy assessment of soil class predictions. Geoderma, 292: 118-127.

[35]Sun, Xiao-Lin, Wang, Hui-Li, Zhao, Yu-Guo, Zhang, Chaosheng, Zhang, Gan-Lin. 2017. Digital soil mapping based on wavelet decomposed components of environmental covariates. Geoderma, 303: 118-132.

[36]Zhi, Junjun, Zhang, Ganlin, Yang, Fei, Yang, Renmin, Liu, Feng, Song, Xiaodong, Zhao, Yuguo, Li, Decheng. 2017. Predicting mattic epipedons in the northeastern Qinghai-Tibetan Plateau using Random Forest. Geoderma Regional, 10: 1-10.

[37]Yang Lin, Zhu, A-Xing, Zhao Yuguo, Li Decheng, Zhang Ganlin, Zhang Shujie, Band, Lawrence E. 2017. Regional Soil Mapping Using Multi-Grade Representative Sampling and a Fuzzy Membership-Based Mapping Approach. Pedosphere, 27: 344-357.

[38]Yang, Ren-Min, Yang, Fan, Yang, Fei, Huang, Lai-Ming, Liu, Feng, Yang, Jin-Ling, Zhao, Yu-Guo, Li, De-Cheng, Zhang, Gan-Lin. 2017. Pedogenic knowledge-aided modelling of soil inorganic 碳 stocks in an alpine environment. Science of the Total Environment, 599: 1445-1453.

[39]Zeng, Rong, Rossiter, David G., Yang, Fan, Li, De-Cheng, Zhao, Yu-Guo, Zhang, Gan-Lin. 2017. How accurately can soil classes be allocated based on spectrally predicted physio-chemical properties? Geoderma, 303: 78-84.

[40]Song Xiaodong, Liu Feng, Zhang Ganlin, Li Decheng, Zhao Yuguo, Yang Jinling. 2017. Mapping Soil Organic 碳 Using Local Terrain Attributes: A Comparison of Different 多项式 Models. Pedosphere, 27: 681-693.

[41]Yang, F., Huang, L. M., Rossirter, D. G., Yang, F., Yang, R. M., Zhang, G. L. 2017. Evolution of loess-derived soil along a climatic toposequence in the Qilian Mountains, NE Tibetan Plateau. European Journal of Soil Science, 68: 270-280.

[42]Guo Naijia, Shi Xuezheng, Zhao Yongcun, Xu Shengxiang, Wang Meiyan, Zhang Ganlin, Wu Jinshui, Huang Biao, Kong Chao. 2017. Environmental and Anthropogenic Factors Driving Changes in Paddy Soil Organic Matter: A Case Study in the Middle and Lower Yangtze River Plain of China. Pedosphere, 27: 926-937.

[43]Ju Bing, Wu Kening, Zhang Ganlin, Rossiter, David G., Li Ling. 2017. Characterization of Some Calcareous Soils from Henan and Their Proposed Classification in Chinese Soil 鲾科 Pedosphere, 27: 758-768.

[44]Feng, Youzhi, Dolfing, Jan, Guo, Zhiying, Zhang, Jianwei, Zhang, Ganlin, Li, Shijie, Lin, Xiangui. 2017. Chronosequencing methanogenic 古菌 in ancient Longji rice Terraces in China. Science Bulletin, 62: 879-887.

[45]Song Xiaodong, Liu Feng, Ju Bing, Zhi Junjun, Li Decheng, Zhao Yuguo, Zhang Ganlin. 2017. Mapping soil organic 碳 stocks of northeastern China using expert knowledge and GIS-based methods. Chinese Geographical Science, 27: 516-528.

[46]Yang, Ren-Min, Zhang, Gan-Lin, Liu, Feng, Lu, Yuan-Yuan, Yang, Fan, Yang, Fei, Yang, Min, Zhao, Yu-Guo, Li, De-Cheng. 2016. Comparison of boosted regression tree and random forest models for mapping topsoil organic 碳 concentration in an alpine ecosystem. Ecological Indicators, 60: 870-878.

[47]Montanarella, Luca, Pennock, Daniel Jon, McKenzie, Neil, Badraoui, Mohamed, Chude, Victor, Baptista, Isaurinda, Mamo, Tekalign, Yemefack, Martin, Aulakh, Mikha Singh, Yagi, Kazuyuki, Hong, Suk Young, Vijarnsorn, Pisoot, Zhang, Gan-Lin, Arrouays, Dominique, 黑色, Helaina, Krasilnikov, Pavel, Sobocka, Jaroslava, Alegre, Julio, Henriquez, Carlos Roberto, Mendonca-S蚂蚁os, Maria de Lourdes, Taboada, Miguel, Espinosa-Victoria, David, AlShankiti, Abdullah, Alavipanah, Sayed Kazem, Elsheikh, Elsiddig Ahmed El Mustafa, Hempel, Jon, Arbestain, Marta Camps, Nachtergaele, Freddy, Vargas, Ronald. 2016. World's soils are under threat. Soil, 2: 79-82.

[48]Song, Xiao-Dong, Brus, Dick J., Liu, Feng, Li, De-Cheng, Zhao, Yu-Guo, Yang, Jin-Ling, Zhang, Gan-Lin. 2016. Mapping soil organic 碳 content by geographically weighted regression: A case study in the Heihe River Basin, China. Geoderma, 261: 11-22.

[49]Wu, Xiaodong, Zhao, Lin, Fang, Hongbing, Zhao, Yuguo, Smoak, Joseph M., Pang, Qiangqiang, Ding, Yongjian. 2016. Environmental controls on soil organic 碳 and 氮 stocks in the high-altitude arid western Qinghai-Tibetan Plateau permafrost region. Journal of Geophysical Research-Biogeosciences, 121: 176-187.

[50]Yang, Ren-Min, Zhang, Gan-Lin, Yang, Fei, Zhi, Jun-Jun, Yang, Fan, Liu, Feng, Zhao, Yu-Guo, Li, De-Cheng. 2016. Precise estimation of soil organic 碳 stocks in the northeast Tibetan Plateau. Scientific Reports, 6.

[51]Song Xiaodong, Zhang Ganlin, Liu Feng, Li Decheng, Zhao Yuguo, Yang Jinling. 2016. Modeling spatio-temporal distribution of soil moisture by deep learning-based cellular automata model. Journal of Arid Land, 8: 734-748.

[52]Brus, D. J., Yang, Ren-Min, Zhang, Gan-Lin. 2016. Three-dimensional geostatistical modeling of soil organic 碳: A case study in the Qilian Mountains, China. Catena, 141: 46-55.

[53]Zeng, Rong, Zhang, Gan-Lin, Li, De-Cheng, Rossiter, David G., Zhao, Yu-Guo. 2016. How well can VNIR spectroscopy distinguish soil classes? Biosystems Engineering, 152: 117-125.

[54]Zeng, Rong, Zhao, Yu-Guo, Li, De-Cheng, Wu, Deng-Wei, Wei, 常姓Long, Zhang, Gan-Lin. 2016. Selection of Local Models for Prediction of Soil Organic Matter Using a Regional Soil Vis-NIR Spectral Library. Soil Science, 181: 13-19.

[55]Liu, Feng, Rossiter, David G., Song, Xiao-Dong, Zhang, Gan-Lin, Yang, 任姓Min, Zhao, Yu-Guo, Li, De-Cheng, Ju, Bing. 2016. A similarity-based method for three-dimensional prediction of soil organic matter concentration. Geoderma, 263: 254-263.

[56]Yang, Fei, Zhang, Gan-Lin, Yang, Fan, Yang, Ren-Min. 2016. Pedogenetic interpretations of particle-size distribution curves for an alpine environment. Geoderma, 282: 9-15.

[57]Lehndorff, E., Houtermans, M., Winkler, P., Kaiser, K., Koelbl, A., Romani, M., Said-Pullicino, D., Utami, S. R., Zhang, G. L., Cao, Z. H., Mikutta, R., Guggenberger, G., Amelung, W. 2016. 黑色 carbon and black 氮 storage under long-term paddy and non-paddy management in major reference soil groups. Geoderma, 284: 214-225.

[58]Yang, Jin-Ling, Zhang, Gan-Lin, Yang, Fei, Yang, Ren-Min, Yi, Chen, Li, De-Cheng, Zhao, Yu-Guo, Liu, feng 2016. Controlling effects of surface crusts on H₂O infiltration in an arid desert area of Northwest China. Journal of Soils and Sediments, 16: 2408-2418.

[59]Lu, Ying, Jia, Chongjian, Zhang, Ganlin, Zhao, Yuguo, Wilson, Michael A. 2016. Spatial distribution and source of potential toxic elements (PTEs) in urban soils of Guangzhou, China. Environmental 地球 Sciences, 75.

[60]Song, Xiao-Dong, Liu, Feng, Zhang, Gan-Lin, Li, De-Cheng, Zhao, Yu-Guo. 2016. Estimation of Soil Texture at a Regional Scale Using Local Soil-Landscape Models. Soil Science, 181: 435-445.

[61]Li, Jianwu, Zhang, Ganlin, Ruan, Li, Yang, Jinlin, Wang, Hailong. 2016. Sr-Nd elements and isotopes as tracers of dust input in a tropical soil chronosequence. Geoderma, 262: 227-234.

[62]Liu Feng, Gen.G Xiaoyuan, Zhu A-xing, Fraser, Walter, Song Xiaodong, Zhang Ganlin. 2016. Soil 多边形 disaggregation through similarity-based prediction with legacy pedons. Journal of Arid Land, 8: 760-772.

[63]Huang, Lai-Ming, Zhang, Xin-Hui, Shao, Ming-An, Rossiter, David, Zhang, Gan-Lin. 2016. Pedogenesis significantly decreases the stability of H₂Odispersible soil colloids in a humid tropical region. Geoderma, 274: 45-53.

[64]Li Shanquan, Zhang Ganlin, Yang Jinling, Jia Nan. 2016. Multi-Source Characteristics of Atmospheric Deposition in Nanjing, China, as Controlled by East Asia Monsoons and Urban Activities. Pedosphere, 26: 374-385.

[65]Wang, De-Cai, Zhang, Gan-Lin, Rossiter, David G., Zhang, Jun-Hui. 2016. The Prediction of Soil Texture from Visible-Near-Infrared Spectra under Varying Moisture Conditions. Soil Science Society of America Journal, 80: 420-427.

[66]Song, Xiao-Dong, Zhang, Gan-Lin, Liu, Feng, Li, De-Cheng, Zhao, Yu-Guo. 2016. Characterization of the spatial variability of soil available 锌 at various sampling densities using grouped soil type information. Environmental Monitoring and Assessment, 188.

[67]Zuo Shuangmiao, Yang Jinling, Huang Laiming, Rossiter, David G., Zhang Ganlin. 2016. Assessment of Plant-Driven Mineral 风化作用 in an Aggrading Forested Watershed in Subtropical China. Pedosphere, 26: 817-828.

[68]Yang Renmin, Liu Feng, Zhang Ganlin, Zhao Yuguo, Li Decheng, Yang Jinling, Yang Fei, Yang Fan. 2016. Mapping Soil Texture Based on Field Soil Moisture Observations at a High Temporal Resolution in an Oasis Agricultural 面积 Pedosphere, 26: 699-708.

[69]Huang, Lai-Ming, Thompson, Aaron, Zhang, Gan-Lin, Chen, Liu-Mei, Han, Guang-Zhong, Gong, Zi-Tong. 2015. The use of chronosequences in studies of paddy soil evolution: A review. Geoderma, 237: 199-210.

[70]Burghardt, Wolf Gang, Morel, Jean Louis, Zhang, Gan-Lin. 2015. Development of the soil research about urban, industrial, traffic, mining and military areas (SUITMA). Soil Science and Plant Nutrition, 61: 3-21.

[71]Yang, Jin-Ling, Zhang, Gan-Lin. 2015. Formation, characteristics and eco-environmental implications of urban soils - A review. Soil Science and Plant Nutrition, 61: 30-46.

[72]Yang, Renmin, Rossiter, David G., Liu, Feng, Lu, Yuanyuan, Yang, Fan, Yang, Fei, Zhao, Yuguo, Li, Decheng, Zhang, Ganlin. 2015. Predictive Mapping of Topsoil Organic 碳 in an Alpine Environment Aided by Landsat TM. Plos One, 10.

[73]Wang, De-Cai, Zhang, Gan-Lin, Zhao, Ming-Song, Pan, Xian-Zhang, Zhao, Yu-Guo, Li, De-Cheng, Macmillan, Bob. 2015. Retrieval and Mapping of Soil Texture Based on Land surface Diurnal 温度 Range 数据 from MODIS. Plos One, 10.

[74]Hu, Xue-Feng, Du, Yan, Liu, Xiang-Jun, Zhang, Gan-Lin, Jiang, Ying, Xue, Yong. 2015. Polypedogenic case of loess overlying red clay as a response to the Last Glacial-Interglacial cycle in mid-subtropical Southeast China. Aeolian Research, 16: 125-142.

[75]Chen, L. M., Zhang, G. L., Rossiter, D. G., Cao, Z. H. 2015. Magnetic depletion and enhancement in the evolution of paddy and non-paddy soil chronosequences. European Journal of Soil Science, 66: 886-897.

[76]Han, Guang-Zhong, Zhang, Gan-Lin, Li, De-Cheng, Yang, Jin-Ling. 2015. Pedogenetic evolution of clay minerals and agricultural implications in three paddy soil chronosequences of south China derived from different parent materials. Journal of Soils and Sediments, 15: 423-435.

[77]Zhao, M.S., Zhang, G.L., Wu, Y.J., Li, D.C., Zhao, Y.G. 2015. Driving forces of soil organic matter change in Jiangsu Province of China. Soil Use and Management, 31: 440-449.

[78]Sun, X.L., Wu, Y.J., Lou, Y.L., Wang, H.L, Zhang, C., Zhao, YG娱乐, Zhang, G.L. 2015. Updating digital soil maps with new 数据: a case study of soil organic matter in Jiangsu, China. European Journal of Soil Science, 66: 1012-1022.

[79]Huang, Lai-Ming, Yang, Jin-Ling, Thompson, Aaron, Rossiter, David G., Zuo, Shuang-Miao, Zhang, Gan-Lin. 2015. Proton production from 氮 transformation drives stream export of base cations in acid-sensitive forested watersheds. Ecological Indicators, 48: 348-357.

[80]Wu Deng-Wei, Zhang Gan-Lin. 2015. Study on Paddy Soil Chronosequences Based on Visiblc-Near Infrared Diffuse Reflectance Spectra. Spectroscopy and Spectral Analysis, 35: 3375-3381.

1.2 中文论文

[1]张甘霖, 王秋兵, 我国土壤资源特点与土壤安全利用, 2015, 中国科学院院刊, 30卷: 53-60

[2]张甘霖, 吴华勇.从问题到解决方案: 土壤与可持续发展目标的实现.中国科学院院刊, 2018, (02), 124-134.

[3]张甘霖, 朱阿兴, 史舟, 王秋兵, 刘宝元, 张兴昌, 史志华, 杨金玲, 刘峰, 宋效东, 吴华勇, 曾荣.土壤地理学的进展与展望.地理科学进展, 2018, 37, 57-65.

二、专著

[1]Zhang Gan-Lin, Brus Dick, Liu Feng, Song Xiao-Dong, Lagacherie Philippe. Digital Soil Mapping across Paradigms, Scales and Boundaries. Springer, 2016.2.16

[2]张甘霖（总主编），中国土系志，2017，2020，科学出版社

[3]龚子同, 陈鸿昭, 张甘霖. 寂静的土壤. 科学出版社. 北京. 2017

[1] 国家自然科学基金重点项目：黑河市流域关键土壤属性数字制图研究，2012.01-2016.12，项目编号：41130530（主持）

[2] 国家自然科学基金-重大研究计划-集成项目，黑河流域土壤数据集成与土壤信息产品生成，2014.01-2017.12，项目编号：91325301（主持）

[3] 科技基础性工作专项，我国土系调查与《中国土系志（中西部卷）》编制，2014.05-2018.12，项目编号：2014FY110200（主持）

[4] 国家自然科学基金项目-英国牛顿基金会重大国际合作项目，红壤关键带土壤风化与形成的关键过程、速率及其驱动机制，2016.01-2019.12，项目编号：41571130051（主持）

[5] 中国科学院科技服务网络计划（STS），土壤污染风险评价与场地污染修复，2018.01-2019.06，项目编号：KFJ-STS-ZDTP-039（主持）

[6] 中国工程院咨询研究项目，长三角农用地土壤污染风险及防治对策研究（课题四：长三角农用地土壤污染数据库），2019.03-2021.03，项目编号：2019-XZ-24（参与）

[7] 国家重点研发计划政府间国际科技创新合作重点专项项目，土壤综合观测与智能服务平台研发与应用，2019.08-2022.06，项目编号：2018YFE0107000（主持）

[8] 第二次青藏高原综合科学考察研究，土壤质量变化及其对生态系统的影响（课题一：土壤类型调查与制图），2019.11-2022.10，项目编号：2019QZKK0306（参与）

[9] 中国科学院科技创新重点部署项目，法庭土壤物证精准溯源技术与应用，2019.01-2021.12，项目编号：KGFZD-135-19-10（主持）