Analysis and experimentation on ecosystems

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.

Hao B, Wu H, Jeppesen E, Li W.  2018.  The response of phytoplankton communities to experimentally elevated temperatures in the presence and absence of Potamogeton crispus. 35:539–546.

Johnson J, Pannatier EGraf, Carnicelli S, Cecchini G, Clarke N, Cools N, Hansen K, Meesenburg H, Nieminen TM, Pihl-Karlsson G et al..  2018.  The response of soil solution chemistry in European forests to decreasing acid deposition. 24:3603–3619.

Reitsema RE, Wolters J-W, Preiner S, Meire P, Hein T, De Boeck G, Blust R, Schoelynck J.  2020.  Response of Submerged Macrophyte Growth, Morphology, Chlorophyll Content and Nutrient Stoichiometry to Increased Flow Velocity and Elevated {CO}2 and Dissolved Organic Carbon Concentrations. 11

Hoeffner K, Monard C, Cluzeau D, Santonja M.  2019.  Response of temperate anecic earthworm individual biomass to species interactions. Applied Soil Ecology. 144:8–11.

Fontaine S, Stahl C, Klumpp K, Picon‐Cochard C, Grise MM, Dezécache C, Ponchant L, Freycon V, Blanc L, Bonal D et al..  2018.  Response to {Editor} to the comment by {Schipper} to our paper entitled “{Continuous} soil carbon storage of old permanent pastures in {Amazonia}”. Global Change Biology. 24:e732–e733.

Binet M-N, van Tuinen D, Souard F, Sage L, Périgon S, Gallet C, Legay N, Lavorel S, Mouhamadou B.  2017.  Responses of above- and below-ground fungal symbionts to cessation of mowing in subalpine grassland. Fungal Ecology. 25:14–21.

Kokkonen NAK, Laine AMaria, Laine J, Vasander H, Kurki K, Gong J, Tuittila E-S.  2019.  Responses of peatland vegetation to 15-year water level drawdown as mediated by fertility level. 30:1206–1216.

Mäkiranta P, Laiho R, Mehtätalo L, Straková P, Sormunen J, Minkkinen K, Penttilä T, Fritze H, Tuittila E-S.  2017.  Responses of phenology and biomass production of boreal fens to climate warming under different water-table level regimes. 24:944–956.

Hao B, Roejkjaer AFabrin, Wu H, Cao Y, Jeppesen E, Li W.  2018.  Responses of primary producers in shallow lakes to elevated temperature: a mesocosm experiment during the growing season of Potamogeton crispus. 80

Rasheed M.U., Julkunen-Tiitto R., Kivimäenpää M., Riikonen J., Kasurinen A..  2020.  Responses of soil-grown Scots pine seedlings to experimental warming, moderate nitrogen addition and bark herbivory in a three-year field experiment. 733:139110.

Bader MY, Loranger H, Zotz G, Mendieta-Leiva G.  2017.  Responses of {Tree} {Seedlings} near the {Alpine} {Treeline} to {Delayed} {Snowmelt} and {Reduced} {Sky} {Exposure}. Forests. 9:12.

Martínez B., Sanchez-Ruiz S., Gilabert M.A, Moreno A., Campos-Taberner M., García-Haro F.J, Trigo I.F, Aurela M., Brümmer C., Carrara A. et al..  2018.  Retrieval of daily gross primary production over {Europe} and {Africa} from an ensemble of {SEVIRI}/{MSG} products. International Journal of Applied Earth Observation and Geoinformation. 65:124–136.

Reynaert S, De Boeck HJ, Verbruggen E, Verlinden M, Flowers N, Nijs I.  2021.  Risk of short-term biodiversity loss under more persistent precipitation regimes. 27:1614–1626.

Anouhe JBaptiste S, Niamké FBobelé, Faustin M, Virieux D, Pirat JLuc, Adima AAmissa, Kati-Coulibaly S, Amusant N.  2018.  The role of extractives in the natural durability of the heartwood of {Dicorynia} guianensis {Amsh}: new insights in antioxydant and antifungal properties. Annals of Forest Science. 75:15.

Kilpeläinen J, Domisch T, Lehto T, Finér L, Aphalo PJ, Leinonen I, Ryyppö A, Repo T.  2019.  Root and shoot phenology and root longevity of Norway spruce saplings grown at different soil temperatures. 49:1441–1452.

Dombrowski N, Schlaeppi K, Agler MT, Hacquard S, Kemen E, Garrido-Oter R, Wunder J, Coupland G, Schulze-Lefert P.  2017.  Root microbiota dynamics of perennial {Arabis} alpina are dependent on soil residence time but independent of flowering time. The ISME Journal. 11:43–55.

Almario J, Jeena G, Wunder J, Langen G, Zuccaro A, Coupland G, Bucher M.  2017.  Root-associated fungal microbiota of nonmycorrhizal \textit{{Arabis} alpina} and its contribution to plant phosphorus nutrition. Proceedings of the National Academy of Sciences. 114:E9403–E9412.

Lavoir AV.  2011.  Scaling-up leaf monoterpene emissions from a water limited {Quercus} ilex woodland. Atmospheric Environment. :10.

Van Dooren T, Thomassen HA, Smit F, Helmstetter AJ, Savolainen V.  2018.  Scope for sympatric giant-dwarf speciation driven by cannibalism in {South}-{American} annual killifish ({Austrolebias}). bioRxiv. :121806.