姓名:马轩龙

职称: 研究员  硕士生导师  专业硕士生导师 

性别:男

毕业院校:中国科学院大学 / 澳大利亚悉尼科技大学(联合培养)

学历:研究生

学位:理学博士

在职信息:在职

所在单位:遥感与地理信息系统研究所

入职时间:2019-11-11

办公地点:祁连堂223

电子邮箱:xlma@lzu.edu.cn

学习经历

实验室招收具有遥感、地理信息科学、计算机、生态学、数学、物理专业背景的硕士研究生,并欢迎本科生主动联系科研训练、本科实习、毕业设计、校创国创、䇹政学者项目指导。

2009-2014,中国科学院大学 / 澳大利亚悉尼科技大学,博士(联合培养)
2006-2008,兰州大学,硕士
2002-2006,兰州大学,本科

研究方向

植被定量遥感、生态遥感监测、全球变化

开展植被定量遥感基础理论与方法研究,提高对全球植被动态遥感监测的准确度和可信度;发展综合卫星、无人机和近地面遥感的“星-空-地”一体化生态系统动态监测技术体系;研究气候变化和人类活动对生态环境的影响,特别关注生态系统对极端气候事件和人类活动干扰的响应。

合作国内外实验室:
- 澳大利亚悉尼科技大学(University of Technology Sydney),Alfredo Huete教授
- 德国马普学会生物地球化学研究所(Max-Planck Institute for Biogeochemistry, MPI-BGC, Jena),Markus Reichstein教授
- 德国莱比锡大学遥感研究中心(Leipzig University),Miguel D. Mahecha教授
- 德国综合生物多样性研究中心(iDiv),Christian Wirth教授
- 德国亥姆霍茲环境研究中心(UFZ),Andreas Huth教授
- 欧盟联合研究中心(EC-JRC),Mirco Migliavacca研究员
- 中国地质大学(北京)土地科学技术学院,闫凯博士
- 北京师范大学/遥感科学国家重点实验室,穆西晗副教授
- 北京林业大学林学院,漆建波博士(LESS模型开发者)

工作经历

2019-至今,兰州大学资源环境学院,研究员(正高)
2017-2019,德国马普学会生物地球化学研究所,全职博士后
2015-2017,澳大利亚悉尼科技大学,全职博士后

主讲课程

讲授课程 Teaching:
---------------
秋季学期,研究生课程,《生态遥感》,主讲教师
春季学期,研究生课程,《地理信息科学前沿进展》,课程协调人
春季学期,研究生课程,《专业文献阅读与写作》,主讲教师
春季学期,本科生课程,《职业生涯规划》,参与讲授


在读/在研/毕业学生 Group Members/Alumni(包括本科生、研究生):
------------------------------------------------------------------
【年级】  【级别】                    【姓名(具体指导)】                              【毕业后去向】
2021级,    GIS(硕),              赵宇荷   
2020级,    GIS(硕),              张正阳
2020级,    GIS(本),              谭    祺(大创)
2019级,    GIS(本),              梁    钰(本科导师、大创)
2019级,    GIS(本),              李雨涵(大创)         
2019级,    GIS(本),              张欢欢(大创)
2018级,    GIS(本),              王敏钰(大创、实习、毕设)                保送至浙江大学读研
2018级,    GIS(本),              罗    毅(大创、实习、毕设)
2018级,    GIS(本),              陈宇轩(实习、毕设)
2017级,    GIS(本),              丑永辉(实习、毕设)

学术兼职

2019-至今,Remote Sensing(中科院二区SCI期刊),编委(Editorial Board Member)
2020,         Remote Sensing(中科院二区SCI期刊),专刊客座编辑(Guest Editor)

受邀担任以下学术期刊审稿人(首字母顺序):
- Austral Ecology
- Agricultural & Forest Meteorology
- Climatic Change, Environmental Modelling & Software
- Global Change Biology
- Geophysical Research Letters
- IEEE-Journal of Selected Topics in Applied Earth Observations and Remote Sensing
- International Journal of Digital Earth
- Journal of Applied Remote Sensing
- Journal of Geophysical Research: Biogeosciences
- Journal of Hydrology
- Journal of Remote Sensing (AAAS)
- Journal of Soil and Sediments
- Nature Communications
- Remote Sensing
- Remote Sensing of Environment
- Science of the Total Environment
- 遥感学报
- 兰州大学学报(自然科学版)
 

研究成果

在植被物候参数提取、植被生产力和生物多样性估算等生态遥感关键技术上取得了突破,并以这些技术突破为基础,探索并发现了典型生态脆弱区环境变化的重要自然现象和规律。首次提出 “生态系统水文气候敏感性”的概念,并领导开发了在区域尺度上进行敏感性遥感评估的方法,发现半干旱脆弱生态系统对极端干旱等水文气候事件的敏感性远超其它生态系统。该发现表明半干旱脆弱区在未来气候变化趋势下的脆弱性将会进一步增加,且面临严重的生态系统突变和退化风险。这一重要发现对于我国西部地区(尤其是干旱、半干旱脆弱区占总面积达75%的甘肃省)在未来气候变化背景下的生态安全具有重要的科学意义和政策指导价值。该研究成果发表在国际地学领域权威期刊、美国地球物理学会主办的《地球物理研究期刊》上,并得到了国际学术界的高度重视:国际顶级科学期刊《自然》在该成果发表当月便发表一篇专文对该成果的科学价值进行了专门的评述; 受《地球物理研究期刊》主编、美国威斯康辛大学Ankur Desai教授推荐,被选为当期封面文章进行重点报导;受Desai教授推荐,美国地球物理学会主办的《地球与空间科学新闻》的“焦点研究”对该成果进行了专文评述;受《全球碳预算》首席科学家、英国东安格利亚大学Corinne Le Quéré教授推荐,被选为支持全球碳循环研究重要科学发现“气候变化会弱化陆地碳汇并通过反馈作用进一步加速气候变化”的关键论据之一。

获得荣誉

2021,GIS应用技能大赛优秀指导教师,奖励单位:兰州大学
2020,Kamide Lecture Award,奖励单位:Asia-Oceania Geosciences Society(AOGS,亚太地球科学学会)
2016,优秀青年研究奖(Early Career Research Grant),奖励单位:澳大利亚悉尼科技大学,资助额度:2万2千澳元(折合人民币10万元)
2010,国家公派留学基金联合培养博士奖学金,奖励单位:国家留学基金委,资助额度:4万4千澳元(折合人民币22万元)
2009,中国科学院研究生奖学金,奖励单位:中国科学院,额度:人民币9万元
2006,国家公费研究生奖学金,奖励单位:中国教育部,额度:学费全免,生活补助,研究资助

在研项目

6. 国家自然科学基金委,面上项目,“植被遥感监测中太阳角度效应的研究与校正”,2022-2025,主持人
5. 甘肃省自然科学基金,面上项目,“基于长时序遥感数据的甘南黄河上游植被变化趋势研究”,2021-2023,主持人
4. 甘肃省生态环境厅,合作项目,“2015-2020年甘肃省生态变化遥感监测”, 2020-2021,项目骨干;
3. 中国科学院,“地球大数据科学工程”A类战略先导科技专项,“2021年度《地球大数据支撑可持续发展目标报告》”,2021,课题负责人
2. 兰州大学,中央高校学科交叉创新团队建设项目, “黄河流域生态变化遥感监测”(lzujbky-2021-ct11),2021-2023,主持人
1. 兰州大学,青年研究员人才科研启动项目, “植被与生态遥感”,2019-2024,主持人

发表论文

中科院分区;*为通讯作者;发表文章统计:总数43篇,一作/通讯13篇(其中一区Top 4篇,二区4篇,三区1篇,国际会议论文1篇,中文核心3篇)。文章总被引次数:1294, H-index 19(数据来源于谷歌学术 2022.03.25)

- 2022
[43] Zhang, Z., Lu, L., Zhao, Y., Wang, Y., Ma, X. * (通讯作者) (2022) Recent advances in using Chinese Earth observation satellites for remote sensing of vegetation. ESSOAr. DOI: 10.1002/essoar.10510984.1.
[42] Beringer, J., Moore, C.E., Cleverly, J., Campbell, D.I., Cleugh, H., De Kauwe, M.G., Kirschbaum, M.U., Griebel, A., Grover, S., Huete, A., Hutley, L.B., Laubach, J., Van Niel, T., Arndt, S.K., Bennett, A.C., Cernusak, L.A., Eamus, D., Ewenz, C.M., Goodrich, J.P., Jiang, M., Hinko-Najera, N., Issac, P., Hobeich, S., Knauer, J., Koerber, G.R., Liddell, M., Ma, X., Macfarlane, C., McHugh, I.D., Medlyn, B.E., Meyer, W.S., Norton, A.J., Owens, J., Pitman, A., Pendall, E., Prober, S.M., Ray, R.L., Restrepo-Coupe, N., Rifai, S.W., Rowlings, D., Schipper, L., Silberstein, R.P., Teckentrup, L., Thompson, S.E., Ukkola, A.M., Wall, A., Wang, Y-P., Wardlay, T.J., Woodgate, W. (2022) Bridge to the future: Important lessons from 20 years of ecosystem observations made by the OzFlux network. Global Change Biology, 00:1-26.
[41] Xie, Q.*, Cleverly, J., Moore, C.E., Ding, Y.*, Hall, C.C., Ma, X., Brown, L.A., Wang, C., Beringer, J., Prober, S.M., Macfarlane, C., Meyer, W.S., Yin, G., Huete, A.* (2022) Land Surface phenology retrievals for arid and semi-arid ecosystems. ISPRS Journal of Photogrammetry and Remote Sensing. 185, 129-145.  

- 2021 - 
[40] Pacheco-Labrador, J.*, Weber, U., Ma, X., Mahecha, M.D., Carvalhais, N., Wirth, C., Huth, A., Bohn, F.J., Kraemer, G., Heiden, U., FDEMembers, Migliavacca, M. (2021) Evaluating the potential of DESIS to infer plant taxonomical and functional diversities in European forests. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Science, XLVI-1/W1-2021, 49-55. (国际会议论文)
[39] 王敏钰, 罗毅, 张正阳, 谢巧云, 吴小丹, 马轩龙*. (2021) 植被物候参数遥感提取与验证方法研究进展. 遥感学报, DOI:10.11834/jrs.20211601   
[38] Migliavacca, M., Musavi, T., Mahecha, M.D., Nelson, J.A., Knauer, J., Baldocchi, D.D., ....., Ma, X., .... Zaehle, S., Reichstein, M. (2021) The three major axes of terrestrial ecosystem function. Nature, 598, 468-472.  (一区top)
[37] Wang H., Liu, H., Huang, N., Bi, J., Ma, X., Ma, Z., Shangguan, Z., Zhao, H., Feng, Q., Liang, T., Cao, G., Schimid, B., He, J-S. (2021) Satellite-derived NDVI underestimates the advancement of alpine vegetation growth over the past three decades. Ecology, e03518. (一区top)
[36] Ma, X., Tran, N.N., Leng, S., Xie, Q., Huete, A. (2021) Monitoring savanna vegetation phenology using Advanced Himawari Imager. 2021 International Geoscience and Remote Sensing Symposium (IGARSS), 1579-1599. (国际会议论文)
[35] Li, W., Liu, C., Su, W., Ma, X., Zhou, H., Wang, W., Zhu, G. (2021) Spatiotemporal evaluation of alpine pastoral ecosystem health by using the Basic-Pressure-State-Response Framework: A case study of the Gannan region, northwest China. Ecological Indicators, 129, 10800. (二区)
[34] Ma, D., Wu, X., Ma, X., Wang, J., Lin, X., Mu, C. (2021) Spatial, phenological, and inter-annual variations of gross primary productivity in the Arctic from 2001 to 2019. Remote Sensing, 13, 2875. (二区top) 

- 2020 - 
[33] Zhuang, W., Shi, H., Ma, X., Cleverly, J., Beringer, J., Zhang, Y., He, J., Eamus, D., Yu, Q. (2020) Improving estimation of seasonal evapotranspiration in Australian tropical savannas using a Flexible Drought Index. Agricultural and Forest Meteorology, 295, 108203. (一区top)
[32] Liu, J., Ma, X., Duan, Z., Jiang, J., Reichstein, M., Jung, M. (2020) Impact of temporal precipitation variability on ecosystem productivity. Wiley Interdisciplinary Reviews: Water. (一区top)
[31] Shi, Y., Jing, N., Ma, X., Wu, B., He, Q., Yue, C., Yu, Q.* (2020) Attribution of climate and human activities to vegetation change in China using machine learning techniques. Agricultural and Forest Meteorology, 294, 108146. (一区top)
[30] Luo, Y.*, El-Madany, T., Ma, X., Nair, R., Jung, M., Weber, U., Filippa, G., Bucher, S.F., Moreno, G., Cremonese, E., Carrara, A., Gonzalez-Cascon, R., Escudero, Y.C., Galvagno, M., Pacheco-Labrador, J., Martin, M.P., Perez-Priego, O., Reichstein, M., Richardson, A.D., Menzel, A., Römermann, C., Migliavacca.* (2020) Nutrients and water availability constrain the seasonality of vegetation activity in a Mediterranean ecosystem. Global Change Biology. doi:10.1111/gcb.15138 (一区Top)
[29] Tran, N.N., Huete, A., Nguyen, H., Grant, I., Miura, T., Ma, X., Lyapustin, A., Wang, Y., Ebert, E. (2020) Seasonal comparisons of Himawari-8 AHI and MODIS vegetation indices over latitudinal Australian grassland sites. Remote Sensing, 12, 2494. (二区)
[28] Ma, X.*, Huete, A., Moore, C.E., Cleverly, J., Hutley, L.B., Beringer, J., Leng, S., Xie, Z., Yu, Q., Eamus, D. (2020) Spatiotemporal partitioning of savanna plant functional type productivity along NATT. Remote Sensing of Environment, 246, 111855. (一区Top)
[27] Ma, X.*, Huete, A., Tran, N.N., Bi, J., Gao, S., Zeng, Y. (2020) Sun-angle effects on remote sensing phenology observed and modelled using Himawari-8. Remote Sensing, 12(8), 1339. (二区)
[26] Ma, X.*, Migliavacca, M., Wirth, C., Bohn, F.J., Huth, A., Richter, R., Mahecha, M.D. (2020) Monitoring plant functional diversity using the reflectance and echo from space. Remote Sensing, 12(8), 1248. (二区)
[25] Shen, J.*, Huete, A., Ma, X., Tran, N., Joiner, J., Beringer, J., Eamus, D., Yu, Q. The spatial pattern and temporal dynamics of photosynthesis activity across Australian rainfed croplands. (2019) Ecological Indicators, 108, 105669.(一区)

- 2019 - 
[24] Ma, X.*, Mahecha, M.D., Migliavacca, M., van der Plas, F., Benavides, R., Ratcliffe, S., Kattge, J., Richter, R., Musavi, T., Baeten, L., Barnoaiea, I., Bohn, F., Bouriaud, O., Bussotti, F., Coppi, A., Domisch, T., Huth, A., Jaroszewicz, B., Joswig, J., Pabon-Moreno, D.E., Papale, D., Selvi, F., Vaglio Laurin, G., Valladares, F., Reichstein, M., Wirth, C. (2019) Inferring plant functional diversity from space: the potentials of Sentinel-2. Remote Sensing of Environment, 233, 111368. (一区Top)
[23] Ma, X.*, Huete, A., Tran, N. (2019) Interactions of seasonal sun-angle and savanna phenology observed and modelled using MODIS. Remote Sensing, 􏲚11(12), 1398. (二区)
[22] Jin, J.*, Ma, X., Chen, H., Wang, H., Kang, X., Wang, X., Wang, Y., Yong, B., Guo, F. (2019). Grassland production in response to changes in biological metrics over Tibetan Plateau. Science of the Total Environment, 666, 641-651. (二区)

- 2018 -
[21] Luo, Y., El-Madany, T., Filippa, G., Ma, X., Ahrens, B., Carrara, A., Gonzalez-Cascon, R., Cremonese, E., Galvagno, M., Hammer, T., Pacheco-Labrador, J., Martin, P., Moreno, G., Perez- Priego, O., Reichstein, M., Richardson, A., Romermann, C., Migliavacca, M.* (2018). Using near- infrared-enabled digital repeat photography to track structural and physiological phenology in Mediterranean tree-grass ecosystems. Remote Sensing, 10, 1293. (二区)
[20] Sippel, S.*, Reichstein, M.*, Ma, X., Mahecha, M., Lange, H., Flach, M., Frank, D. (2018). Drought, heat, and the carbon cycle: a review. Current Climate Change Reports, 4(3), 266-286.
[19] Shen, J., Huete, A., Tran, N., Devadas, R., Ma, X., Eamus, D., Yu, Q.* (2018). Diverse sensitivity of winter crops over the growing season to climate and land surface temperature across the rainfed cropland-belt of eastern Australia. Agriculture, Ecosystems, & Environment, 254, 99-110. (二区)
[18] Zhang, X., Wang, N.*, Xie, Z., Ma, X., Huete, A. (2018). Water loss due to increasing planted vegetation over the Badain Jaran Desert, China. Remote Sensing, 10(1), 134. (二区)

- 2017 -
[17] Maeda, E.*, Ma, X., Wagner, F., Kim, H., Oki, T., Eamus, D., Huete, A. (2017). Evapotranspi- ration seasonality across the Amazon basin. Earth System Dynamics, 8, 439-454. (二区)

- 2016 - 
[16] Ma, X.*, Huete, A., Cleverly, J., Eamus, D., Chevallier, F., Joiner, J., Poulter, B., Zhang, Y., Guanter, L., Meyer, W., Xie, Z., Ponce-Campos, G. (2016). Drought rapidly disseminates the 2011 large carbon uptake in semi-arid Australia. Scientific Reports, 6. (三区)
[15] Xie, Z., Huete, A.*, Ma, X., Restrepo-Coupe, N., Devadas, R., Clark, K., Lewis, M. (2016). Landsat and GRACE observations of arid wetland dynamics in a dryland river system under multi-decadal hydroclimatic extremes. Journal of Hydrology, 543B, 818-831. (二区)
[14] Eamus, D., Huete, A., Cleverly, J., Nolan, R., Ma, X., Tarin, T., Santini, N. (2016). Mulga, a major tropical dry open forest of Australia: recent insights to carbon and water fluxes. Environ- mental Research Letters, 11, 125011. (二区)
[13] Xie, Z., Huete, A.*, Restrepo-Coupe, N., Ma, X., Devadas, R., Graziella, C. (2016). Spatial partitioning and temporal evolution of Australia’s total water storage under extreme hydroclimatic impacts. Remote Sensing of Environment. 183, 43-52. (一区Top)
[12] Cleverly, J.*, Eamus, D., Luo, Q., Restrepo-Coupe, N., Kljun, N., Ma, X., Ewenz, C., Li, L., Yu, Q., Huete, A. (2016). The importance of interacting climate modes on global carbon cycle extremes. Scientific Reports, 6, 23113. (三区)

- 2015 -
[11] Ma, X.*, Huete, A., Moran, M.S., Ponce-Campos, G., Eamus, D. (2015). Abrupt shifts in phenol- ogy and vegetation productivity under climate extremes. Journal of Geophysical Research: Biogeosciences, 120(10), 2036-2052. (二区,被选为当期封面文章并被Nature发专文报道)
[10] Broich, M.*, Huete, A., Paget, M., Ma, X., Tulbure, M., Restrepo-Coupe, N., Evans, B., Beringer, J., Devadas, R., Davies, K., Held, A. (2015). A spatially explicit land surface phenology data product for science, monitoring and natural resources management applications. Environmental Modelling & Software, 64, 191-204. (二区)

- 2014 -
[9] Ma, X., Huete, A.*, Yu, Q., Restrepo-Coupe, N., Beringer, J., Hutley, L. B., Kanniah, K. D., Cleverly, J., Eamus, D. (2014). Parameterization of an ecosystem light-use-efficiency model for predicting savanna GPP using MODIS EVI. Remote Sensing of Environment, 154, 253-271. (一区Top);
[8] Broich, M., Huete, A.*, Tulbure, M. G., Ma, X., Xin, Q., Paget, M., Restrepo-Coupe, N., Davies, K., Devadas, R., Held, A. (2014). Land surface phenological response to decadal climate variability across Australia using satellite remote sensing. Biogeosciences, 11, 5181-5198. (二区)

- 2013 - 
[7] Ma, X., Huete, A.*, Yu, Q., Restrepo-Coupe, N., Davies, K., Broich, M., Ratana, P., Beringer, J., Hutley, L. B., Cleverly, J., Boulain, N., Eamus, D. (2013). Spatial patterns and temporal dynamics in savanna vegetation phenology across the North Australian Tropical Transect. Remote Sensing of Environment, 139, 97-115. (一区Top)

- 2012 - 
[6] 李文娟, 九次力, 谭忠厚, 马轩龙,陈全功*. (2012) 青海省草地生产力及草畜平衡状况研究. 资源科学, 34(2), 367-372. (中文核心)

-2009-
[5] 李文娟, 马轩龙, 陈全功*. (2009) 青海省海东、海北地区草地资源产量与草畜平衡现状研究. 草业学报, 18(5), 270-276. (中文核心)
[4] 谭忠厚, 马轩龙, 陈全功*. (2009) 基于 “3S” 技术与地面调查相结合的草原监测——以青海省黄南和海南地区为例. 草业科学, 26(11), 25-31. (中文核心)
[3] 马轩龙, 李文娟, 陈全功*. (2009) 基于GIS与草原综合顺序分类法对甘肃省草地类型的划分初探. 草业科学, 26(5), 7-13.(中文核心)

-2008-
[2] 马轩龙, 李春娥, 陈全功*. (2008) 基于GIS的气象要素空间插值方法研究. 草业科学, 25(11), 13-19.(中文核心)
[1] 李春娥, 马轩龙, 严建武, 陈全功*. (2008) 网络版《中国草业开发与生态建设》数据库的更新. 草业学报, 17(1), 100-106.(中文核心)

出版著作

- 2015 -
- Huete, A., Ponce-Campos, G., Zhang, Y., Restrepo-Coupe, N., Ma, X., Moran, M. S. (2015). Monitoring photosynthesis from space. Vol. II. Land Resources: Monitoring, Modelling, and Mapping, in Remote Sensing Handbook edited by Prasad S. Thenkabail., Taylor and Francis. 3-22. 

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