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张黎明



发布时间 :2022-09-02? ? 信息员:?


 张黎明,男,甘肃临夏人,博(硕)士生生导师,乐鱼平台入口副院长,中国土壤学会土壤遥感与信息专业委员会委员,福建省自然资源学会副理事长和福建省农学会常务理事,福建省第三次全国土壤普查技术组副组长,以及土壤生态系统健康与调控福建省高校重点实验室主任。为福建省高层次人才,福建省高校杰出青年科研人才、新世纪优秀人才支持计划和乐鱼平台入口严家显最高奖教金入选者,Frontiers in Soil Science期刊编辑Review Editor- Pedometrics),《智慧农业导刊》期刊编委会主任委员,Resources, Conservation & Recycling、Geoderma、Soil & Tillage Research、Global and Planetary Change、Catena、《土壤学报》和《环境科学》等20多种国内外主流期刊的审稿人。2002年毕业于甘肃农业大学土壤与农业化学本科专业,2005年获得海南大学作物栽培学与耕作学硕士学位国家“双一流”建设学科,2009年获得南京农业大学的土壤学博士学位国家“双一流”建设学科,其中硕士和博士学位论文均在中国科学院南京土壤研究所完成。2014-20152018-2019在美国普渡大学Department of Earth, Atmospheric & Planetary Sciences作访问学者两年。

 目前主要从事土壤数字化管理与全球碳氮循环模拟方面的研究,已建成全国140多个县(市)1:5-1:1000万土壤数据库,积累实验室土壤样品分析数据一百多万个,其中利用第二次土壤普查3000多个剖面、4万多个表层样点,以及200823万多个表层样点和2016-20193万多个表层样点建立的福建省1:5期土壤数据库为全国省级尺度最为详尽的土壤数据库之一,该数据库目前在福建省碳氮磷循环、土壤酸化和耕地评价等研究方面得到了广泛应用。先后主持国家自然科学基金(青年、面上)、教育部博士点基金、教育部博士后基金、福建省自然科学基金和土壤与农业可持续发展国家重点实验室开放基金等20多项科研项目,参加国家自然科学基金、国家科技支撑计划项目和福建省重大专项等10多个研究课题,已在国内外期刊发表论文100多篇(SCI论文27),获批软件著作权6项,并作为第二主编和参编著作9部,参与完成的福建省农业用地优化利用信息系统研究与推广应用获农业农村部二等奖(排名第三),区域农用地评价、利用区划方法创新与应用获神农福建省农业科技二等奖(排名第二)。招收农业资源与环境硕(博)士研究生。所在课题组有良好的学习氛围,近年先后有15名硕士研究生考上中国科学院(4名)、中国农业科学院、南京大学、南开大学、南京农业大学和乐鱼平台入口的博士,多名硕士研究生第一作者论文发表在《Soil & Tillage Research》、《土壤学报》、《生态学报》和《环境科学》等国内外主流刊物上。主讲本科生《土壤学》、《土壤资源调查与评价》及研究生土壤资源评价等课程。


代表性论文(*为通讯作者):

[1]ZhangLiming, Zheng Qiaofeng, Liu Yaling, Liu Shaogui, Yu Dongsheng, Shi Xuezheng, Xing Shihe, Chen Hanyue, Fan Xieyu. Combined effects of temperature and precipitation on soil organic carbon changes in the uplands of eastern China. Geoderma, 2019, 337: 1105-1115.SCI, 农林科学大类Ⅰ区,TOP

[2]ZhangLiming, Liu Yaling, Li Xiaodi, Huang Linbin, Yu Dongsheng, Shi Xuezheng, Chen Hanyue, Xing Shihe. Effects of soil map scales on simulating soil organic carbon changes of upland soils in Eastern China. Geoderma, 2018, 312: 159-169.SCI, 农林科学大类Ⅰ区,TOP

[3] ZhangLiming, Wang Guangxiang, Zheng Qiaofeng, Liu Yaling, Yu Dongsheng, Shi Xuezheng, Xing Shihe, ChenHanyue, Fan Xieyu. Quantifying the impacts of agricultural management and climate change on soil organic carbon changes in the uplands of Eastern China. Soil & Tillage Research, 2017,174: 81-91.SCI, 农林科学大类Ⅰ区,TOP

[4] Zhang Liming, Zhuang Qianlai, Zhao Quanying, He Yujie, Yu Dongsheng, Shi Xuezheng, Xing Shihe. Uncertainty of organic carbon dynamics in Tai-Lake paddy soils of China depends on the scale of soil maps. Agriculture, Ecosystems and Environment, 2016, 222: 13-22.SCI, 农林科学类Ⅰ区,TOP

[5]Zhang Liming, Zhuang Qianlai, He Yujie, Liu Yaling, Yu Dongsheng, Zhao Quanying, Shi Xuezheng, Xing Shihe, Wang Guangxiang. Toward optimal soil organic carbon sequestration with effects of agricultural management practices and climate change in Tai-Lake paddy soils of China. Geoderma, 2016, 275: 28-39. SCI, 农林科学大类Ⅰ区,TOP

[6] ZhangLiming, Zhuang Qianlai, Li Xiaodi, Zhao Quanying, Yu Dongsheng, LiuYaling, Shi Xuezheng, Xing Shihe, Wang Guangxiang. Carbon sequestration in the uplands of Eastern China: An analysis with high-resolution model simulations. Soil & Tillage Research, 2016,158: 165-176.SCI, 农林科学大类Ⅰ区,TOP

[7] Wang Guangxiang, Zhang Liming*, Zhuang Qianlai, Yu Dongsheng, Shi Xuezheng, Xing Shihe, Xiong Dezhong, Liu Yaling. Quantification of the soil organic carbon balance in the Tai-Lake paddy soils of China. Soil & Tillage Research, 2016,155: 95-106.SCI, 农林科学大类Ⅰ区,TOP

[8] Zhang Liming,Yu Dongsheng, Shi Xuezheng, Xu Shengxiang,Wang Shihang, Xing Shihe, Zhao Yongcun. Simulation soil organic carbon change in China,s Tai-Lake paddy soils. Soil & Tillage Research, 2012,121: 1-9. SCI, 农林科学大类Ⅰ区,TOP

[9]Zhang Liming, Yu Dongsheng, Shi Xuezheng, Weindorf David C, Zhao Limin, Ding Weixin, Wang Hongjie, Pan Jianjun, Li Changsheng. Simulation of Global Warming Potential (GWP) from rice fields in Tai-Lake region, China by coupling 1:50,000 soil database with DNDC model. Atmospheric Environment, 2009, 43: 2737-2746. SCI, 环境科学与生态学大类Ⅱ区,TOP

[10] Zhang Liming,Yu Dongsheng, Shi Xuezheng, Weindorf David C, Zhao Limin, Ding Weixin, Wang Hongjie, Pan Jianjun, Li Changsheng. Quantifying methane emissions from rice fields in the Taihu region, China by coupling a detailed soil database with biogeochemical model. Biogeosciences, 2009, 6: 739-749. SCI, 环境科学与生态学大类Ⅱ区)

[11] Zhang Liming, Yu Dongsheng, Shi Xuezheng, Xu Shengxiang, Xing Shihe. Zhao Yongcun. Effects of soil data and simulation unit resolution on quantifying changes of soil organic carbon at regional scale with a biogeochemical process model. PLoS ONE, 2014, doi: 10.1371/journal. pone.0088622.SCI, 综合性期刊大类Ⅲ区)

[12]Ma Dan, Zhang Hongxue, Song Xingxing,Fan Manman, Heiling Maria,Liu Licheng, Zhang Liming*, Mao Yanling*. Estimating soil organic carbon and nitrogen stock based on high-resolution soil databases in a subtropical agricultural area of China. Soil and Tillage Research, 2022, 219:105321. SCI, 农林科学大类Ⅰ区,TOP

[13] Long Jun, Liu Yaling,Xing Shihe*, Qiu Longxia, Huang Qian, Zhou Biqing, Shen Jinquan, Zhang Liming*. Effects of sampling density on interpolation accuracy for farmland soil organic matter concentration in a large region of complex topography. Ecological Indicators, 2018, 93:562-571.SCI, 环境科学与生态学大类Ⅱ区)

[14] Long Jun, Liu Yaling,Xing Shihe*, Zhang Liming*,QuMingkai, Qiu Longxia, Huang Qian, Zhou Biqing, Shen Jinquan. Optimal interpolation methods for farmland soil organic matter in variouslandforms of a complex topography. Ecological Indicators, 2020, 110:105926.SCI, 环境科学与生态学大类Ⅱ区)

[15]Yang Jing, Gao Wenqi, Wang Fei, Wang Fan,Zhang Liming, Zhou Biqing, Xing Shihe, Yang Wenhao. Dynamics and influencing factors of soluble organic nitrogen in paddy soil under different long-term fertilization treatments. Soil & Tillage Research, 2021, 212:105077. SCI, 农林科学大类Ⅰ区,TOP

[16]FanManman, LalRattan, ZhangHuan, MargenotAndrew, WuJingtao, WuPengbao, Zhang Liming, YaoJingtao,Chen Furong, Gao Chao. Variability and determinants of soil organic matter in an intensive agricultural region, eastern China. Soil & Tillage Research, 2020, 198:104544. SCI, 农林科学大类Ⅰ区,TOP

[17] Xing Shihe, Zhou Biqing, Zhang Liming, Mao Yanlin, Wang Fan, Chen Chengrong, Xing Shihe. Evaluating the mechanisms of the impacts of key factors on soil soluble organic nitrogen concentrations in subtropical mountain ecosystems. Science of the Total Environment, 2019, 651, 2187-2196.SCI, 环境科学与生态学大类Ⅰ区,TOP

[18].YangJing, YangWenhao, WangFan, ZhangLiming, Zhou Biqing, ChenChenrong, Rubab Sarfrazb, XingShihe. The driving factors of soluble organic nitrogen dynamics in paddy soils: Structure Equation Model Analysis. Pedosphere, 2020, 30(6): 801-809.SCI, 农林科学大类Ⅱ区)

[19] Yu Dongsheng, Pan Yue, Zhang Haidong, Wang Xiyang, Ni Yunlong, Zhang Liming, Shi Xuezheng. Equality testing for soil grid unit resolutions to polygon unit scales with DNDC modeling of regional SOC pools. Chinese Geographical Science, 2017, 27(4): 552-568.SCI, 环境科学与生态学大类Ⅲ区)

[20] ChenHanyue, HuangWenjiang, LiWang, NiuZheng,ZhangLiming, XingShihe. Estimation of LAI in winter wheat from multi-angular hyperspectral VNIR data: effects of view angles and plant architecture. Remote Sensing, 2018, 10, 1630, doi:10.3390/rs10101630.SCI, 工程技术大类Ⅱ区)

[21] Zhou Biqing, Zhang Liming, Yang Wenhao, Mao Yanlin, Chen Chengrong, Xing Shihe. Differential uptake of soluble organic and inorganic nitrogen by two fruit species: Dimocarpus longan Lour. and Eriobotrya japonica Lindl. Journal of Soils and Sediments, 2017,17(6), 1579-1587.SCI, 农林科学大类Ⅱ区)

[22] Fan Manman,Margenot Andrew J, Zhang Liming, Lal Rattan, Wu Jingtao, Chang Naijie, Shaukate Muhammad, Chen Furong, Gao Chen. Soil organic carbondynamics in intensively managed agricultural landscapes of eastern China. Archives of Agronomyand Soil Science, 2020, DOI: 10.1080/03650340.2020.1842371SCI, 农林科学大类Ⅲ区)

[23] Yu Dongsheng, Ni Yuanlong, Shi Xuezheng, Wang Ning, Warner E.D, Liu Yang, Zhang Liming. Optimal soil raster unit resolutions in estimation of SOC pool at different map scales. Soil Science Society of America Journal, 2014, 78(3): 10791086.SCI, 农林科学大类Ⅲ区)

[24]Yu Dongsheng, Zhang Liming, Shi Xuezheng, Warner Eric D, Zhang Zhong Qi, Zhao Qiguo. Soil assessment unit scale affects quantifying CH4 emissions from rice fields. Soil Science Society of America Journal, 2013, 77(2): 664-672.SCI, 农林科学大类Ⅲ区)

[25]Yu Dongsheng, Yang Hao, Shi Xuezheng, Warner Eric D, Zhang Liming,Zhao Qiguo. Effects of soil spatial resolution on quantifying CH4 and N2O emissions from rice fields in the Tai Lake region of China by DNDC model. Global Biogeochemical Cycles, 2011, 25, GB2004, doi:10.1029/2010GB003825.SCI, 地学类Ⅰ区,TOP

[26]Xu Shengxiang, Shi Xuezheng, Zhao Yongcun,Yu Dongsheng,Wang Shihang, Zhang Liming, Li Changsheng, Tan Manzhi. Modeling carbon dynamics in paddy soils in Jiangsu province of China with soil databases differing in spatial resolution. Pedosphere, 2011, 21(6): 696–705. SCI, 农林科学大类Ⅱ区)

[27]Shi Xuezheng, Yang Ruwei, Weindorf David C, Wang Hongjie, Yu Dongsheng, Huang Yao, Pan Xianzhang, Sun Weixia, Zhang Liming.Simulation of organic carbon dynamics at regional scale for paddy soils in China. Climatic Change, 2010, 102, 579-593.SCI, 环境科学与生态学大类Ⅱ区)

[28] 车燕,邱龙霞,吴凌云,龙军,毋亭,李晶,邢世和,张黎明*福建省水田土壤有机碳积累对未来温度升高的响应.环境科学,2023,44(5).EI,中国科技卓越行动期刊)

[29]罗玉叶,邱龙霞,龙军,陈瀚阅,毋亭,李晶,邢世和,张黎明*. 不同秸秆还田率情境下的亚热带水田土壤的“碳汇”贡献模拟研究.土壤学报,2022(已接受,中国科技卓越行动期刊)

[30]吴世蓉,位佳,邱龙霞,陈瀚阅,范协裕,毋亭,邢世和,张黎明*. 基于大比例尺数据库的福建省耕地土壤固碳速率和潜力研究.土壤学报,2022,9(5):1293-1305(中国科技卓越行动期刊)

[31]毋亭,吴启航,曹文琦,陈婧妍,刘绍贵,于东升,史学正,邢世和,张黎明*DEM 分辨率对苏北地区耕地土壤有机碳制图精度的影响研究.中国农业资源与区划, 2022, 437:262-272CSSCI

[32] 陈中星,邱龙霞,陈瀚阅,范协裕,毋亭,沈金泉,邢世和,张黎明*.近 40年来福建省水稻土有效磷富集效应及潜在生态风险评估.环境科学,2021,https://doi.org/10.13227/j.hjkx.202108140.EI,中国科技卓越行动期刊)

[33]陈中星,张 楠,黄 凯,邱龙霞,陈瀚阅, 邢世和,沈金泉,张黎明*. 基于1:5万数据库的福建省土壤全氮密度及储量估算研究.土壤学报,2021,doi:10.11766/trxb202008100447.(中国科技卓越行动期刊)

[34]姚彩燕,刘绍贵,乔婷,龙军,于东升,史学正,邢世和,陈瀚阅,张黎明*.基于时空变异的旱地土壤有机碳高效采样策略研究. 土壤学报,2021,583):638-648.(中国科技卓越行动期刊)

[35]袁平,张黎明*,乔婷,谢安乾,于东升,史学正,邢世和,陈翰阅. 基于1:5万土壤数据库的太湖地区水稻土全氮含量动态变化研究. 土壤学报,2019,566: 1514-1525.(中国科技卓越行动期刊)

[36] 陈中星,张楠,张黎明*,袁平,姚彩燕,邢世和,邱龙霞.  福建省土壤有机碳储量估算的尺度效应研究. 土壤学报,2018,553: 606-619 封面文章.(中国科技卓越行动期刊)

[37] 黄琳斌,张黎明*,龙 军,于东升,史学正,陈翰阅,范协裕,邢世和. 制图尺度对CO2浓度升高情景下旱地土壤有机碳模拟的影响. 土壤学报,2017,543: 624-638. (中国科技卓越行动期刊)

[38]李晓迪,王淑民,张黎明*,于东升,史学正,李加加,邢世和,王光翔. 土壤数据源和制图比例尺对旱地土壤有机碳储量估算的影响. 土壤学报,2016,531):58-71. (中国科技卓越行动期刊)

[39] 焦闪闪,张黎明*,蒋威,郑巧丽,龙军,陈翰阅,邢世和. 基于1:5万土壤数据库的福建省耕地全氮储量动态变化研究. 土壤学报,2016,535: 1107-1119.(中国科技卓越行动期刊)

[40] 李衡荣,张黎明*,李晓迪,于东升,史学正,邢世和,陈翰阅. 不同制图尺度及土壤数据对土壤全磷储量估算的影响. 应用生态学报,2016,276):1737-1749.(中文权威期刊)

[41] 杨静,郭文圻, 杨文浩,周碧青,张黎明,邢世和.紫云英翻压后稻田土壤可溶性有机氮迁移特性与损失风险. 土壤学报,2021, doi:10.11766/trxb202009100469.(中国科技卓越行动期刊)

[42] 袁玉琦,陈瀚阅,张黎明,任必武,邢世和,童珺玥.基于多变量与RF算法的耕地土壤有机碳空间预测研究——以福建亚热带复杂地貌区为例. 土壤学报,2021,584: 887-899.(中国科技卓越行动期刊)

[43] 周洁莹,张黎明,杨文浩,周碧青,邢世和. 福建省耕地土壤潜性酸动态变化及其驱动因素. 应用生态学报,2019,30(3): 913-922(中文权威期刊)

[44] 周碧青,邱龙霞,张黎明,张秀,陈成榕,邢世和. 基于灰色关联-结构方程模型的土壤酸化驱动因子研究. 土壤学报,2018, 555:1233-1242. (中国科技卓越行动期刊)

[45] 周志,刘扬,张黎明,许锐能,孙丽莉,廖红. 武夷茶区茶园土壤养分状况及其对茶叶品质成分的影响. 中国农业科学 2019,52(8):1425-1434. (中国科技卓越行动期刊)

[46] 杨静,聂三安,杨文浩,陈成榕,张黎明,周碧青,邢世和. 不同施肥水稻土可溶性有机氮组分差异及影响因素. 土壤学报,2018,554):955-966. (中国科技卓越行动期刊)

[47]周碧青,陈成榕,杨文浩,张黎明,邢世和.茶树对可溶性有机和无机态氮的吸收与运转特性. 植物营养与肥料学报,2017,231):189-195.(中国科技卓越行动期刊)

[48] 倪元龙,于东升,张黎明,史学正. 不同比例尺农田土壤碳库模拟的最佳栅格单元分辨率. 土壤学报,2014,511):664-674. (中国科技卓越行动期刊)

[49] 龙军,张黎明,毛艳玲,邢世和. 福建省不同耕地土壤和土地利用类型对“碳源/汇”的贡献差异研究. 土壤学报,2013,504):664-674.(中国科技卓越行动期刊)

[50] 龙军,张黎明,沈金泉,周碧青,毛艳玲,邱龙霞,邢世和. 复杂地貌类型区耕地土壤有机质空间插值方法研究. 土壤学报,2014,516):1270-1281. (中国科技卓越行动期刊)

[51] 龙军,张黎明,沈金泉,周碧青,毛艳玲,邢世和. 福建省耕地土壤全氮密度和储量动态变化. 生态学报,2015,35(12): 3959-3969. (中国科技卓越行动期刊)

[52] 刘陈坚,张黎明,任引.基于生态信息诊断框架的杉木人工林生物量生态预测研究.生态学报,2020,40( 22) : 8199-8206(中国科技卓越行动期刊)


获得荣誉:

福建省高层次人才,2022

福建省高校杰出青年科研人才,2013

福建省高等学校新世纪优秀人才,2014

乐鱼平台入口严家显最高奖教金获得者,2016

福建留学人员先进个人,2016

乐鱼平台入口首届杰出青年基金获得者,2012

乐鱼平台入口首届“金山学者-青年学术新秀”, 2013

乐鱼平台入口“青年五四奖章”获得者,2015

乐鱼平台入口“三下乡”先进个人,2013



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