Analysis and experimentation on ecosystems

de Dios VResco, Roy J, Ferrio JPedro, Alday JG, Landais D, Milcu A, Gessler A.  2015.  Processes driving nocturnal transpiration and implications for estimating land evapotranspiration. Scientific Reports. 5:10975.

Tuzet F, Dumont M, Picard G, Lamare M, Voisin D, Nabat P, Lafaysse M, Larue F, Revuelto J, Arnaud L.  2020.  Quantification of the radiative impact of light-absorbing particles during two contrasted snow seasons at {Col} du {Lautaret} (2058 m a.s.l., {French} {Alps}). The Cryosphere. 14:4553–4579.

Neumann M, Ukonmaanaho L, Johnson J, Benham S, Vesterdal L, Novotný R, Verstraeten A, Lundin L, Thimonier A, Michopoulos P et al..  2018.  Quantifying Carbon and Nutrient Input From Litterfall in European Forests Using Field Observations and Modeling. 32:784–798.

Dusza Y, Juarez S, Chollet S, Ferrière R, Hansart A, Massol F, Llavata M, Le Galliard J-F, Sánchez-Cañete EPérez, Barron-Gafford G.  2018.  Quantifying the importance of biotic and abiotic drivers in creating lags in soil {CO2} efflux. 20:8461.

Delpierre N.  2012.  Quantifying the influence of climate and biological drivers on the interannual variability of carbon exchanges in {European} forests through process-based modelling. Agricultural and Forest Meteorology. :14.

Goetz J, Brenning A.  2019.  Quantifying {Uncertainties} in {Snow} {Depth} {Mapping} {From} {Structure} {From} {Motion} {Photogrammetry} in an {Alpine} {Area}. Water Resources Research. 55:7772–7783.

Laybros A, Aubry-Kientz M, Féret J-B, Bedeau C, Brunaux O, Derroire G, Vincent G.  2020.  Quantitative {Airborne} {Inventories} in {Dense} {Tropical} {Forest} {Using} {Imaging} {Spectroscopy}. Remote Sensing. 12:1577.

Pérez-Ramos IM, Rodríguez-Calcerrada J, Ourcival JM, Rambal S.  2013.  Quercus ilex recruitment in a drier world: {A} multi-stage demographic approach. Perspectives in Plant Ecology, Evolution and Systematics. 15:106–117.

Gavinet J, Ourcival J‐M, Limousin J‐M.  2019.  Rainfall exclusion and thinning can alter the relationships between forest functioning and drought. New Phytologist. 223:1267–1279.

Paschalis A, Fatichi S, Zscheischler J, Ciais P, Bahn M, Boysen L, Chang J, De Kauwe M, Estiarte M, Goll D et al..  2020.  Rainfall manipulation experiments as simulated by terrestrial biosphere models: Where do we stand? 26:3336–3355.

Paschalis A, Fatichi S, Zscheischler J, Ciais P, Bahn M, Boysen L, Chang J, De Kauwe M, Estiarte M, Goll D et al..  2020.  Rainfall manipulation experiments as simulated by terrestrial biosphere models: {Where} do we stand? Global Change Biology. 26:3336–3355.

Legrand D, Trochet A, Moulherat S, Calvez O, Stevens VM, Ducatez S, Clobert J, Baguette M.  2015.  Ranking the ecological causes of dispersal in a butterfly. Ecography. 38:822–831.

Van Langenhove L, Janssens IA, Verryckt L, Bréchet L, Hartley IP, Stahl C, Courtois E, Urbina I, Grau O, Sardans J et al..  2020.  Rapid root assimilation of added phosphorus in a lowland tropical rainforest of {French} {Guiana}. Soil Biology and Biochemistry. 140:107646.

Lempereur M, Limousin J-M, Guibal F, Ourcival J-M, Rambal S, Ruffault J, Mouillot F.  2017.  Recent climate hiatus revealed dual control by temperature and drought on the stem growth of {Mediterranean} \textit{{Quercus} ilex}. Global Change Biology. 23:42–55.

Boissieu F.d, Lang M., Féret J., Monnet J., Durrieu S..  2019.  Reconstruction of {Airborne} {Laser} {Scanner} {Trajectory} {From} {Data}. {IGARSS} 2019 - 2019 {IEEE} {International} {Geoscience} and {Remote} {Sensing} {Symposium}. :8964–8967.

Guillaume O, Deluen M, Raffard A, Calvez O, Trochet A.  2020.  Reduction in the metabolic levels due to phenotypic plasticity in the {Pyrenean} newt, {Calotriton} asper, during cave colonization. Ecology and Evolution. 10:12983–12989.

Guillaume O, Deluen M, Raffard A, Calvez O, Trochet A.  2020.  Reduction in the metabolic levels due to phenotypic plasticity in the {Pyrenean} newt, {Calotriton} asper, during cave colonization. Ecology and Evolution. 10:12983–12989.

Soudani K.  2014.  Relationships between photochemical reflectance index and light-use efficiency in deciduous and evergreen broadleaf forests. Remote Sensing of Environment. :12.

Goerner A, Reichstein M, Tomelleri E, Hanan N, Rambal S, Papale D, Dragoni D, Schmullius C.  2011.  Remote sensing of ecosystem light use efficiency with {MODIS}-based {PRI}. Biogeosciences. 8:189–202.

Vicca S, Balzarolo M, Filella I, Granier A, Herbst M, Knohl A, Longdoz B, Mund M, Nagy Z, Pintér K et al..  2016.  Remotely-sensed detection of effects of extreme droughts on gross primary production. Scientific Reports. 6

Fischer M-T, Ringler M, Ringler E, Pasukonis A.  2020.  Reproductive behavior drives female space use in a sedentary {Neotropical} frog. PeerJ. 8:e8920.

Volaire F, Morvan-Bertrand A, Prud’homme M-P, Benot M-L, Augusti A, Zwicke M, Roy J, Landais D, Picon-Cochard C.  2020.  The resilience of perennial grasses under two climate scenarios is correlated with carbohydrate metabolism in meristems. Journal of Experimental Botany. 71:370–385.

Saunier A, Ormeño E, Havaux M, Wortham H, Ksas B, Temime-Roussel B, Blande JD, Lecareux C, Mévy J-P, Bousquet-Mélou A et al..  2018.  Resistance of native oak to recurrent drought conditions simulating predicted climatic changes in the {Mediterranean} region. Plant, Cell & Environment. 41:2299–2312.

Mévy J-P, Loriod B, Liu X, Corre E, Torres M, Büttner M, Haguenauer A, Reiter IMarco, Fernandez C, Gauquelin T.  2020.  Response of {Downy} {Oak} ({Quercus} pubescens {Willd}.) to {Climate} {Change}: {Transcriptome} {Assembly}, {Differential} {Gene} {Analysis} and {Targeted} {Metabolomics}. Plants. 9:1149.

Mévy J-P, Loriod B, Liu X, Corre E, Torres M, Büttner M, Haguenauer A, Reiter IMarco, Fernandez C, Gauquelin T.  2020.  Response of {Downy} {Oak} ({Quercus} pubescens {Willd}.) to {Climate} {Change}: {Transcriptome} {Assembly}, {Differential} {Gene} {Analysis} and {Targeted} {Metabolomics}. Plants. 9:1149.