Distance makes the difference in thermography for ecological studies.
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O. Dangles | É. Faye | S. Pincebourde | O Dangles | E Faye | S Pincebourde
[1] Jimenez Juan Carlos,et al. Thermal Infrared Remote Sensing , 2018 .
[2] Manfred Stoll,et al. Use of infrared thermography for monitoring stomatal closure in the field: application to grapevine. , 2002, Journal of experimental botany.
[3] R Core Team,et al. R: A language and environment for statistical computing. , 2014 .
[4] S. Pincebourde,et al. The roles of microclimatic diversity and of behavior in mediating the responses of ectotherms to climate change. , 2015, Journal of thermal biology.
[5] Jérôme Casas,et al. Temporal coincidence of environmental stress events modulates predation rates , 2012 .
[6] M. Horning,et al. Surface temperature patterns in seals and sea lions: A validation of temporal and spatial consistency , 2010 .
[7] François Rebaudo,et al. A toolbox for studying thermal heterogeneity across spatial scales: from unmanned aerial vehicle imagery to landscape metrics , 2016 .
[8] Laurent Seuront,et al. Infrared thermography in marine ecology: methods, previous applications and future challenges , 2014 .
[9] S. Pincebourde,et al. Climate uncertainty on leaf surfaces: the biophysics of leaf microclimates and their consequences for leaf‐dwelling organisms , 2012 .
[10] Y. le Maho,et al. Emperor penguin body surfaces cool below air temperature , 2013, Biology Letters.
[11] Dale A. Quattrochi,et al. Thermal Infrared Remote Sensing for Analysis of Landscape Ecological Processes: Current Insights and Trends. Chapter 3 , 2014 .
[12] Alexander Berk,et al. MODTRAN6: a major upgrade of the MODTRAN radiative transfer code , 2014, Defense + Security Symposium.
[13] G. Roberts,et al. Thermal remote sensing of active vegetation fires and biomass burning events [Chapter 18] , 2013 .
[14] U. Uehlinger,et al. Thermal Heterogeneity in River Floodplains , 2010, Ecosystems.
[15] Brian Helmuth,et al. Survival and arm abscission are linked to regional heterothermy in an intertidal sea star , 2013, Journal of Experimental Biology.
[16] J. Veghte,et al. Jackrabbit ears: surface temperatures and vascular responses. , 1976, Science.
[17] Justyna Cilulko,et al. Infrared thermal imaging in studies of wild animals , 2013, European Journal of Wildlife Research.
[18] H. Woods,et al. Ontogenetic changes in the body temperature of an insect herbivore , 2013 .
[19] Jérôme Casas,et al. Warming decreases thermal heterogeneity of leaf surfaces: implications for behavioural thermoregulation by arthropods , 2014 .
[20] Michael Vollmer,et al. Infrared Thermal Imaging: Fundamentals, Research and Applications , 2010 .
[21] K. McGarigal,et al. FRAGSTATS: spatial pattern analysis program for quantifying landscape structure. , 1995 .
[22] H. Jones. Plants and Microclimate: Other environmental factors: wind, altitude, climate change and atmospheric pollutants , 2013 .
[23] Inagaki Mn,et al. Visual monitoring of water deficit stress using infra-red thermography in wheat , 2008 .
[24] N. A. Øritsland. Variations in the body surface temperature of the harp seal , 1968 .
[25] D. Quattrochi,et al. Thermal infrared remote sensing for analysis of landscape ecological processes: methods and applications , 1999, Landscape Ecology.
[26] J. Kerr,et al. From space to species: ecological applications for remote sensing , 2003 .
[27] Christian Körner,et al. Phenology Under Global Warming , 2010, Science.
[28] Sebastian Dudzik,et al. Uncertainties of Measurements in Infrared Thermography , 2009 .
[29] Hong S. He,et al. An aggregation index (AI) to quantify spatial patterns of landscapes , 2000, Landscape Ecology.
[30] J. Kingsolver. The Well‐Temperatured Biologist , 2009, The American Naturalist.
[31] Carlos Roberto de Souza Filho,et al. Calculating radiant flux from thermally mixed pixels using a spectral library , 2014 .
[32] Y. Cohen,et al. Crop water stress mapping for site-specific irrigation by thermal imagery and artificial reference surfaces , 2010, Precision Agriculture.
[33] J. Monteith,et al. Boundary Layer Climates. , 1979 .
[34] S. Idso,et al. Canopy temperature as a crop water stress indicator , 1981 .
[35] D. McCullough,et al. Infrared Scanning Techniques for Big Game Censusing , 1968 .
[36] Glenn J. Tattersall,et al. Insights into animal temperature adaptations revealed through thermal imaging , 2010 .
[37] P. Zarco-Tejada,et al. Mapping crop water stress index in a ‘Pinot-noir’ vineyard: comparing ground measurements with thermal remote sensing imagery from an unmanned aerial vehicle , 2014, Precision Agriculture.
[38] Eva Rubio,et al. Emissivity measurements of several soils and vegetation types in the 8–14, μm Wave band: Analysis of two field methods , 1997 .
[39] J. Norman,et al. Terminology in thermal infrared remote sensing of natural surfaces , 1995 .
[40] Christian Körner,et al. Infra‐red thermometry of alpine landscapes challenges climatic warming projections , 2009 .