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Yane de Freitas da Silva, Aliny Aparecida Dos Reis, João Paulo Sampaio Werner, Rafael Vasconcelos Valadares, Eleanor E. Campbell, Rubens Augusto Camargo Lamparelli, Paulo Sérgio Graziano Magalhães & Gleyce Kelly Dantas Araújo Figueiredo. (2022) Assessing the capability of MODIS to monitor mixed pastures with high-intensity grazing at a fine-scale. Geocarto International 37:20, pages 6033-6051.
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Haraldur Olafsson & Iman Rousta. (2021) Influence of atmospheric patterns and North Atlantic Oscillation (NAO) on vegetation dynamics in Iceland using Remote Sensing. European Journal of Remote Sensing 54:1, pages 351-363.
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Rahul Nigam, Swapnil S. Vyas, Bimal K. Bhattacharya, Markand P. Oza, Shailendra S. Srivastava, Nita Bhagia, Debajyoti Dhar & K.R. Manjunath. (2015) Modeling temporal growth profile of vegetation index from Indian geostationary satellite for assessing in-season progress of crop area. GIScience & Remote Sensing 52:6, pages 723-745.
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Kirsten M. de Beurs & Grigory Ioffe. (2014) Use of Landsat and MODIS data to remotely estimate Russia’s sown area. Journal of Land Use Science 9:4, pages 377-401.
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H. Khavarian, P.M. Atkinson, E.J. Milton & J.B. Stewart. (2013) Validation of the MODIS reflectance product under UK conditions. International Journal of Remote Sensing 34:20, pages 7376-7399.
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Fang Shi-Bo & Zhang Xin-Shi. (2013) Control of vegetation distribution: climate, geological substrate, and geomorphic factors. A case study of grassland in Ordos, Inner Mongolia, China. Canadian Journal of Remote Sensing 39:2, pages 167-174.
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Articles from other publishers (47)
Matthew P Dannenberg & Miriam R Johnston. (2023) Effects of eastern vs. central Pacific El Niño on Northern Hemisphere photosynthetic seasonality. Environmental Research: Climate 2:3, pages 031002.
Crossref
Crossref
Maria Magdalena Warter, Michael Bliss Singer, Mark O Cuthbert, Dar Roberts, Kelly K Caylor, Romy Sabathier & John Stella. (2023) Modeling seasonal vegetation phenology from hydroclimatic drivers for contrasting plant functional groups within drylands of the Southwestern USA. Environmental Research: Ecology 2:2, pages 025001.
Crossref
Crossref
Youlv Wu, Pengfeng Xiao, Xueliang Zhang, Hao Liu, Yuanbiao Dong & Lian Feng. (2023) Effects of Snow Cover on Spring Vegetation Phenology Vary With Temperature Gradient Across the Pan‐Arctic. Journal of Geophysical Research: Biogeosciences 128:4.
Crossref
Crossref
Tuğçe Şenel, Oğuzhan Kanmaz, Filiz Bektas Balcik, Meral Avcı & H. Nüzhet Dalfes. (2023) Assessing Phenological Shifts of Deciduous Forests in Turkey under Climate Change: An Assessment for Fagus orientalis with Daily MODIS Data for 19 Years. Forests 14:2, pages 413.
Crossref
Crossref
Shaofeng Qin, Jianli Ding, Xiangyu Ge, Jinjie Wang, Ruimei Wang, Jie Zou, Jiao Tan & Lijing Han. (2023) Spatio-Temporal Changes in Water Use Efficiency and Its Driving Factors in Central Asia (2001–2021). Remote Sensing 15:3, pages 767.
Crossref
Crossref
Yao Kang, Enliang Guo, Yongfang Wang, Yulong Bao, Yuhai Bao & Naren Mandula. (2021) Monitoring Vegetation Change and Its Potential Drivers in Inner Mongolia from 2000 to 2019. Remote Sensing 13:17, pages 3357.
Crossref
Crossref
Erin L. Bunting, Dan Wanyama, Robert Goodwin, Nicholas Weil, Paolo Sabbatini & Jeff Andresen. (2021) Vitis vinifera Production in Michigan: Factors and Trends Driving Cultivation Patterns. Frontiers in Plant Science 12.
Crossref
Crossref
Wu Rihan, Hongyan Zhang, Jianjun Zhao, Yu Shan, Xiaoyi Guo, Hong Ying, Guorong Deng & Hui Li. (2021) Promote the advance of the start of the growing season from combined effects of climate change and wildfire. Ecological Indicators 125, pages 107483.
Crossref
Crossref
Youngwook Kim, John S. Kimball, Nicholas Parazoo & Peter Kirchner. 2021. Arctic Hydrology, Permafrost and Ecosystems. Arctic Hydrology, Permafrost and Ecosystems
583
613
.
Dan Wanyama, Nathan J. Moore & Kyla M. Dahlin. (2020) Persistent Vegetation Greening and Browning Trends Related to Natural and Human Activities in the Mount Elgon Ecosystem. Remote Sensing 12:13, pages 2113.
Crossref
Crossref
Monika A. Tomaszewska, Lan H. Nguyen & Geoffrey M. Henebry. (2020) Land surface phenology in the highland pastures of montane Central Asia: Interactions with snow cover seasonality and terrain characteristics. Remote Sensing of Environment 240, pages 111675.
Crossref
Crossref
Jie Zou, Jianli Ding, Martin Welp, Shuai Huang & Bohua Liu. (2020) Using MODIS data to analyse the ecosystem water use efficiency spatial-temporal variations across Central Asia from 2000 to 2014. Environmental Research 182, pages 108985.
Crossref
Crossref
Kirsten Barrett, Robert Baxter, Elena Kukavskaya, Heiko Balzter, Evgeny Shvetsov & Ludmila Buryak. (2020) Postfire recruitment failure in Scots pine forests of southern Siberia. Remote Sensing of Environment 237, pages 111539.
Crossref
Crossref
Elvis Ricardo Figueira Branco, Alexandre Rosa dos Santos, José Eduardo Macedo Pezzopane, Aureo Banhos dos Santos, Rodrigo Sobreira Alexandre, Vanessa Pimentel Bernardes, Rosane Gomes da Silva, Kaíse Barbosa de Souza & Marks Melo Moura. (2019) Space-time analysis of vegetation trends and drought occurrence in domain area of tropical forest. Journal of Environmental Management 246, pages 384-396.
Crossref
Crossref
Daniel LeVine & Kelley Crews. (2019) Time series harmonic regression analysis reveals seasonal vegetation productivity trends in semi-arid savannas. International Journal of Applied Earth Observation and Geoinformation 80, pages 94-101.
Crossref
Crossref
David Aragones, Victor F. Rodriguez-Galiano, Jose A. Caparros-Santiago & Rafael M. Navarro-Cerrillo. (2019) Could land surface phenology be used to discriminate Mediterranean pine species?. International Journal of Applied Earth Observation and Geoinformation 78, pages 281-294.
Crossref
Crossref
Kristen D. Emmett, Katherine M. Renwick & Benjamin Poulter. (2018) Disentangling Climate and Disturbance Effects on Regional Vegetation Greening Trends. Ecosystems 22:4, pages 873-891.
Crossref
Crossref
Kyla M. Dahlin & Toby R. Ault. (2018) Global linkages between teleconnection patterns and the terrestrial biosphere. International Journal of Applied Earth Observation and Geoinformation 69, pages 56-63.
Crossref
Crossref
Kirsten M de Beurs, Geoffrey M Henebry, Braden C Owsley & Irina N Sokolik. (2018) Large scale climate oscillation impacts on temperature, precipitation and land surface phenology in Central Asia. Environmental Research Letters 13:6, pages 065018.
Crossref
Crossref
Alisa Gallant, Walt Sadinski, Jesslyn Brown, Gabriel Senay & Mark Roth. (2018) Challenges in Complementing Data from Ground-Based Sensors with Satellite-Derived Products to Measure Ecological Changes in Relation to Climate—Lessons from Temperate Wetland-Upland Landscapes. Sensors 18:3, pages 880.
Crossref
Crossref
S. Testa, K. Soudani, L. Boschetti & E. Borgogno Mondino. (2018) MODIS-derived EVI, NDVI and WDRVI time series to estimate phenological metrics in French deciduous forests. International Journal of Applied Earth Observation and Geoinformation 64, pages 132-144.
Crossref
Crossref
X Zhang. 2018. Comprehensive Remote Sensing. Comprehensive Remote Sensing
35
52
.
Paulina Karkauskaite, Torbern Tagesson & Rasmus Fensholt. (2017) Evaluation of the Plant Phenology Index (PPI), NDVI and EVI for Start-of-Season Trend Analysis of the Northern Hemisphere Boreal Zone. Remote Sensing 9:5, pages 485.
Crossref
Crossref
Chao Ding, Xiangnan Liu, Fang Huang, Yao Li & Xinyu Zou. (2017) Onset of drying and dormancy in relation to water dynamics of semi-arid grasslands from MODIS NDWI. Agricultural and Forest Meteorology 234-235, pages 22-30.
Crossref
Crossref
Dildora AralovaKristina ToderichBen JarihaniDilshod GafurovLiliya Gismatulina. Monitoring of vegetation condition using the NDVI/ENSO anomalies in Central Asia and their relationships with ONI (very strong) phases. Monitoring of vegetation condition using the NDVI/ENSO anomalies in Central Asia and their relationships with ONI (very strong) phases.
Hannah Vickers, Kjell Arild Høgda, Stian Solbø, Stein Rune Karlsen, Hans Tømmervik, Ronny Aanes & Brage B Hansen. (2016) Changes in greening in the high Arctic: insights from a 30 year AVHRR max NDVI dataset for Svalbard. Environmental Research Letters 11:10, pages 105004.
Crossref
Crossref
Kirsten M. de Beurs, Geoffrey M. Henebry, Braden C. Owsley & Irina Sokolik. (2015) Using multiple remote sensing perspectives to identify and attribute land surface dynamics in Central Asia 2001–2013. Remote Sensing of Environment 170, pages 48-61.
Crossref
Crossref
J.J. Walker, K.M. de Beurs & G.M. Henebry. (2015) Land surface phenology along urban to rural gradients in the U.S. Great Plains. Remote Sensing of Environment 165, pages 42-52.
Crossref
Crossref
Victor Rodriguez-Galiano, Jadunandan Dash & Peter Atkinson. (2015) Characterising the Land Surface Phenology of Europe Using Decadal MERIS Data. Remote Sensing 7:7, pages 9390-9409.
Crossref
Crossref
Stein Karlsen, Arve Elvebakk, Kjell Høgda & Tom Grydeland. (2014) Spatial and Temporal Variability in the Onset of the Growing Season on Svalbard, Arctic Norway — Measured by MODIS-NDVI Satellite Data. Remote Sensing 6:9, pages 8088-8106.
Crossref
Crossref
Robert E Kennedy, Serge Andréfouët, Warren B Cohen, Cristina Gómez, Patrick Griffiths, Martin Hais, Sean P Healey, Eileen H Helmer, Patrick Hostert, Mitchell B Lyons, Garrett W Meigs, Dirk Pflugmacher, Stuart R Phinn, Scott L Powell, Peter Scarth, Susmita Sen, Todd A Schroeder, Annemarie Schneider, Ruth Sonnenschein, James E Vogelmann, Michael A Wulder & Zhe Zhu. (2014) Bringing an ecological view of change to Landsat‐based remote sensing. Frontiers in Ecology and the Environment 12:6, pages 339-346.
Crossref
Crossref
Heqing Zeng & Gensuo Jia. (2013) Impacts of snow cover on vegetation phenology in the arctic from satellite data. Advances in Atmospheric Sciences 30:5, pages 1421-1432.
Crossref
Crossref
Shawn P. Serbin, Douglas E. Ahl & Stith T. Gower. (2013) Spatial and temporal validation of the MODIS LAI and FPAR products across a boreal forest wildfire chronosequence. Remote Sensing of Environment 133, pages 71-84.
Crossref
Crossref
Matthias Forkel, Nuno Carvalhais, Jan Verbesselt, Miguel Mahecha, Christopher Neigh & Markus Reichstein. (2013) Trend Change Detection in NDVI Time Series: Effects of Inter-Annual Variability and Methodology. Remote Sensing 5:5, pages 2113-2144.
Crossref
Crossref
Lin Xu & Xiaoqiu Chen. (2013) Regional unified model‐based leaf unfolding prediction from 1960 to 2009 across northern China. Global Change Biology 19:4, pages 1275-1284.
Crossref
Crossref
Mirco Boschetti, Francesco Nutini, Pietro Alessandro Brivio, Etienne Bartholomé, Daniela Stroppiana & Agata Hoscilo. (2013) Identification of environmental anomaly hot spots in West Africa from time series of NDVI and rainfall. ISPRS Journal of Photogrammetry and Remote Sensing 78, pages 26-40.
Crossref
Crossref
Meifang ZhaoChanghui PengWenhua XiangXiangwen DengDalun TianXiaolu ZhouGuirui YuHonglin HeZhonghui Zhao. (2013) Plant phenological modeling and its application in global climate change research: overview and future challenges. Environmental Reviews 21:1, pages 1-14.
Crossref
Crossref
Xiangzhong Luo, Xiaoqiu Chen, Lin Xu, Ranga Myneni & Zaichun Zhu. (2013) Assessing Performance of NDVI and NDVI3g in Monitoring Leaf Unfolding Dates of the Deciduous Broadleaf Forest in Northern China. Remote Sensing 5:2, pages 845-861.
Crossref
Crossref
Kirsten M. de Beurs, Robert B. Cook, Susan Mazer, Brian Haggerty, Alisa Hove, Geoffrey M. Henebry, LoriAnne Barnett, Carolyn L. Thomas & Bob R. Pohlad. 2013. Phenology: An Integrative Environmental Science. Phenology: An Integrative Environmental Science
585
602
.
Kirsten M. de Beurs & Geoffrey M. Henebry. 2013. Phenology: An Integrative Environmental Science. Phenology: An Integrative Environmental Science
483
502
.
Geoffrey M. Henebry & Kirsten M. de Beurs. 2013. Phenology: An Integrative Environmental Science. Phenology: An Integrative Environmental Science
385
411
.
Frans E. Wielgolaski & David W. Inouye. 2013. Phenology: An Integrative Environmental Science. Phenology: An Integrative Environmental Science
225
247
.
M.E. Brown, K.M. de Beurs & M. Marshall. (2012) Global phenological response to climate change in crop areas using satellite remote sensing of vegetation, humidity and temperature over 26years. Remote Sensing of Environment 126, pages 174-183.
Crossref
Crossref
Alemu Gonsamo, Jing M. Chen, Chaoyang Wu & Danilo Dragoni. (2012) Predicting deciduous forest carbon uptake phenology by upscaling FLUXNET measurements using remote sensing data. Agricultural and Forest Meteorology 165, pages 127-135.
Crossref
Crossref
Alemu Gonsamo, Jing M. Chen, David T. Price, Werner A. Kurz & Chaoyang Wu. (2012)
Land surface phenology from optical satellite measurement and CO
2
eddy covariance technique
. Journal of Geophysical Research: Biogeosciences 117:G3, pages n/a-n/a.
Crossref
Crossref
Robert E Kennedy. (2012) New views on changing Arctic vegetation. Environmental Research Letters 7:1, pages 011001.
Crossref
Crossref
Glen E. Liston & Christopher A. Hiemstra. (2011) The Changing Cryosphere: Pan-Arctic Snow Trends (1979–2009). Journal of Climate 24:21, pages 5691-5712.
Crossref
Crossref