ANAEE - Analysis and experimentation on ecosystems - Université Grenoble Alpes - Scientific publications

Contenu | Navigation |

Follow us

You are hereHomeResourcesSCIENTIFIC PUBLICATIONS

Scientific publications

Search

Show only items where

Author

Type

Term

Year

Keyword

Found 404 results

Filters: First Letter Of Last Name is C [Clear All Filters]

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

B

Dejean A, Compin A, Delabie JHC, Azémar F, Corbara B, Leponce M. 2019. Biotic and abiotic determinants of the formation of ant mosaics in primary {Neotropical} rainforests. Ecological Entomology. 44:560–570.

Dejean A, Compin A, Delabie JHC, Azémar F, Corbara B, Leponce M. 2019. Biotic and abiotic determinants of the formation of ant mosaics in primary {Neotropical} rainforests. Ecological Entomology. 44:560–570.

Dusza Y, Sanchez-Cañete EP, Le Galliard J-F, Ferrière R, Chollet S, Massol F, Hansart A, Juarez S, Dontsova K, van Haren J et al.. 2020. Biotic soil-plant interaction processes explain most of hysteretic soil {CO2} efflux response to temperature in cross-factorial mesocosm experiment. Scientific Reports. 10:905.

Fronhofer EA, Legrand D, Altermatt F, Ansart A, Blanchet S, Bonte D, Chaine A, Dahirel M, De F, De Raedt J et al.. 2018. Bottom-up and top-down control of dispersal across major organismal groups. Nature Ecology and Evolution. 2:1859–1863.

Fronhofer EA, Legrand D, Altermatt F, Ansart A, Blanchet S, Bonte D, Chaine A, Dahirel M, De F, De Raedt J et al.. 2018. Bottom-up and top-down control of dispersal across major organismal groups. Nature Ecology and Evolution. 2:1859–1863.

Harrault L, Allard B, Mériguet J, Carmignac D, Huon S, Gauzens B, Lacroix G. 2014. Bottom-up effects of lake sediment on pelagic food-web compartments: a mesocosm study. Freshwater Biology. 59:1695–1709.

C

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA et al.. 2020. Can light-saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA et al.. 2020. Can light-saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA et al.. 2020. Can light-saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA et al.. 2020. Can light-saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA. 2020. Can light‐saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA. 2020. Can light‐saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Verryckt LT, Ellsworth DS, Vicca S, Van Langenhove L, Peñuelas J, Ciais P, Posada JM, Stahl C, Coste S, Courtois EA. 2020. Can light‐saturated photosynthesis in lowland tropical forests be estimated by one light level? Biotropica. 52:1183–1193.

Meyer V, Saatchi S, Clark DB, Keller M, Vincent G, Ferraz A, Espírito-Santo F, D'Oliveira MVN, Kaki D, Chave J. 2018. Canopy {Area} of {Large} {Trees} {Explains} {Aboveground} {Biomass} {Variations} across {Nine} {Neotropical} {Forest} {Landscapes}. Biogeosciences Discussions. :1–38.

Meyer V, Saatchi S, Clark DB, Keller M, Vincent G, Ferraz A, Espírito-Santo F, D'Oliveira MVN, Kaki D, Chave J. 2018. Canopy {Area} of {Large} {Trees} {Explains} {Aboveground} {Biomass} {Variations} across {Nine} {Neotropical} {Forest} {Landscapes}. Biogeosciences Discussions. :1–38.

Yu J, He H, Liu Z, Jeppesen E, Chen F, Zhang Y. 2019. Carbon Transfer from Cyanobacteria to Pelagic and Benthic Consumers in a Subtropical Lake: Evidence from a 13C Labelling Experiment. 11:1536.

Amato ED, Nguyen DT, Subotic D, Hereijgers J, Breugelmans T, Weyn M, Dardenne F, Bervoets L, Covaci A, Town RM et al.. 2019. Characterization of the accumulation of metals and organic contaminants on a novel active-passive sampling device under controlled water flow conditions. 236:124400.

Verdier B, Jouanneau I, Simonnet B, Rabin C, Van Dooren TJM, Delpierre N, Clobert J, Abbadie L, Ferrière R, Le Galliard J-F. 2014. Climate and {Atmosphere} {Simulator} for {Experiments} on {Ecological} {Systems} in {Changing} {Environments}. Environmental Science & Technology. 48:8744–8753.

Fu Z, Stoy PC, Luo Y, Chen J, Sun J, Montagnani L, Wohlfahrt G, Rahman AF, Rambal S, Bernhofer C et al.. 2017. Climate controls over the net carbon uptake period and amplitude of net ecosystem production in temperate and boreal ecosystems. Agricultural and Forest Meteorology. 243:9–18.

Martinez‐Almoyna C, Piton G, Abdulhak S, Boulangeat L, Choler P, Delahaye T, Dentant C, Foulquier A, Poulenard J, Noble V et al.. 2020. Climate, soil resources and microbial activity shape the distributions of mountain plants based on their functional traits. Ecography. 43:1550–1559.

Bestion E, Jacob S, Zinger L, Di Gesu L, Richard M, White J, Cote J. 2017. Climate warming reduces gut microbiota diversity in a vertebrate ectotherm. Nature Ecology & Evolution. 1:0161.

Shen R, Gu X, Chen H, Mao Z, Zeng Q, Jeppesen E. 2020. Combining bivalve (Corbicula fluminea) and filter-feeding fish (Aristichthys nobilis) enhances the bioremediation effect of algae: An outdoor mesocosm study. 727:138692.

Aubry-Kientz M, Dutrieux R, Ferraz A, Saatchi S, Hamraz H, Williams J, Coomes D, Piboule A, Vincent G. 2019. A {Comparative} {Assessment} of the {Performance} of {Individual} {Tree} {Crowns} {Delineation} {Algorithms} from {ALS} {Data} in {Tropical} {Forests}. Remote Sensing. 11:1086.

Kamenova S, Mayer R, Rubbmark OR, Coissac E, Plantegenest M, Traugott M. 2018. Comparing three types of dietary samples for prey {DNA} decay in an insect generalist predator. Molecular Ecology Resources. 18:966–973.

Martin RLopes, Le Boulch P, Clin P, Schwarzenberg A, Yvin J-C, Andrivon D, Nguema-Ona E, Val F. 2020. A comparison of {PTI} defense profiles induced in {Solanum} tuberosum by {PAMP} and non-{PAMP} elicitors shows distinct, elicitor-specific responses. PLOS ONE. 15:e0236633.

Pages