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Carbon Dioxide (chemistry) < Carbon Dioxide (metabolism) < Carbon Dioxide (pharmacology)  Facettes :

List of bibliographic references indexed by Carbon Dioxide (metabolism)

Number of relevant bibliographic references: 131.
[0-20] [0 - 20][0 - 50][20-40]
Ident.Authors (with country if any)Title
000354 (2020) Russell K. Monson [États-Unis] ; Barbro Winkler [Allemagne] ; Todd N. Rosenstiel [États-Unis] ; Katja Block [Allemagne] ; Juliane Merl-Pham [Allemagne] ; Steven H. Strauss [États-Unis] ; Kori Ault [États-Unis] ; Jason Maxfield [États-Unis] ; David J P. Moore [États-Unis] ; Nicole A. Trahan [États-Unis] ; Amberly A. Neice [États-Unis] ; Ian Shiach [États-Unis] ; Greg A. Barron-Gafford [États-Unis] ; Peter Ibsen [États-Unis] ; Joel T. Mccorkel [États-Unis] ; Jörg Bernhardt [Allemagne] ; Joerg-Peter Schnitzler [États-Unis]High productivity in hybrid-poplar plantations without isoprene emission to the atmosphere.
000715 (2019) Hajime Tomimatsu [Japon] ; Tsuyoshi Sakata [Japon] ; Hiroshi Fukayama [Japon] ; Yanhong Tang [Japon]Short-term effects of high CO2 accelerate photosynthetic induction in Populus koreana × trichocarpa with always-open stomata regardless of phenotypic changes in high CO2 growth conditions.
000777 (2019) Michiel Hubeau [Belgique] ; Jens Mincke [Belgique] ; Christian Vanhove [Belgique] ; Jan Courtyn [Belgique] ; Stefaan Vandenberghe [Belgique] ; Kathy Steppe [Belgique]Plant-PET to investigate phloem vulnerability to drought in Populus tremula under changing climate regimes.
000A07 (2019) Lucas A. Cernusak [Australie] ; Gregory R. Goldsmith [Suisse] ; Matthias Arend [Suisse] ; Rolf T W. Siegwolf [Suisse]Effect of Vapor Pressure Deficit on Gas Exchange in Wild-Type and Abscisic Acid-Insensitive Plants.
000A53 (2019) Samantha S. Stutz [États-Unis] ; David T. Hanson [États-Unis]Contribution and consequences of xylem-transported CO2 assimilation for C3 plants.
000B03 (2019) Andrea Luca Tasca [Italie] ; Riccardo Bacci Di Capaci [Italie] ; Leonardo Tognotti [Italie] ; Monica Puccini [Italie]Biomethane from Short Rotation Forestry and Microalgal Open Ponds: System Modeling and Life Cycle Assessment.
000D01 (2018) Qiyu Xu [République populaire de Chine] ; Siyuan Chen [République populaire de Chine] ; Ren Yunjuan [République populaire de Chine] ; Shaolin Chen [République populaire de Chine] ; Johannes Liesche [République populaire de Chine]Regulation of Sucrose Transporters and Phloem Loading in Response to Environmental Cues.
000D78 (2018) Christiane Wittmann [Allemagne] ; Hardy Pfanz [Allemagne]More than just CO2 -recycling: corticular photosynthesis as a mechanism to reduce the risk of an energy crisis induced by low oxygen.
000F16 (2018) Bahtijor Rasulov [Estonie] ; Eero Talts [Estonie] ; Irina Bichele [Estonie] ; Ülo Niinemets [Estonie]Evidence That Isoprene Emission Is Not Limited by Cytosolic Metabolites. Exogenous Malate Does Not Invert the Reverse Sensitivity of Isoprene Emission to High [CO2].
000F72 (2018) Roberto L. Salom N [Belgique, Espagne] ; Veerle De Schepper [Belgique] ; María Valbuena-Caraba A [Espagne] ; Luis Gil [Espagne] ; Kathy Steppe [Belgique]Daytime depression in temperature-normalised stem CO2 efflux in young poplar trees is dominated by low turgor pressure rather than by internal transport of respired CO2.
001155 (2017) Joseph R. Stinziano [États-Unis, Canada] ; Patrick B. Morgan [États-Unis] ; Douglas J. Lynch [États-Unis] ; Aaron J. Saathoff [États-Unis] ; Dayle K. Mcdermitt [États-Unis] ; David T. Hanson [États-Unis]The rapid A-Ci response: photosynthesis in the phenomic era.
001278 (2017) Lorenzo Rossi [États-Unis] ; Monica Borghi [États-Unis] ; Jinfen Yang [États-Unis] ; De-Yu Xie [États-Unis]Overexpression of Populus×canescens isoprene synthase gene in Camelina sativa leads to alterations in its growth and metabolism.
001328 (2017) Samantha S. Stutz [États-Unis] ; Jeremiah Anderson [États-Unis] ; Rachael Zulick [États-Unis] ; David T. Hanson [États-Unis]Inside out: efflux of carbon dioxide from leaves represents more than leaf metabolism.
001412 (2017) Hailan Fan [République populaire de Chine] ; Mary Anne Mcguire [États-Unis] ; Robert O. Teskey [États-Unis]Effects of stem size on stem respiration and its flux components in yellow-poplar (Liriodendron tulipifera L.) trees.
001569 (2016) Sheng Zhang [République populaire de Chine] ; Rong Zhou [République populaire de Chine] ; Hongxia Zhao [République populaire de Chine] ; Helena Korpelainen [Finlande] ; Chunyang Li [République populaire de Chine]iTRAQ-based quantitative proteomic analysis gives insight into sexually different metabolic processes of poplars under nitrogen and phosphorus deficiencies.
001805 (2016) Russell K. Monson [États-Unis] ; Amberly A. Neice [États-Unis] ; Nicole A. Trahan [États-Unis] ; Ian Shiach [États-Unis] ; Joel T. Mccorkel [États-Unis] ; David J P. Moore [États-Unis]Interactions between temperature and intercellular CO2 concentration in controlling leaf isoprene emission rates.
001C71 (2015) Alfonso Navarro-R Denas [Canada] ; Hao Xu [Canada] ; Minna Kemppainen [Argentine] ; Alejandro G. Pardo [Argentine] ; Janusz J. Zwiazek [Canada]Laccaria bicolor aquaporin LbAQP1 is required for Hartig net development in trembling aspen (Populus tremuloides).
001D03 (2015) Bin Liu [Allemagne] ; Heinz Rennenberg ; Jürgen KreuzwieserHypoxia induces stem and leaf nitric oxide (NO) emission from poplar seedlings.
001D07 (2015) Ülo Niinemets [Estonie] ; Zhihong Sun [Estonie]How light, temperature, and measurement and growth [CO2] interactively control isoprene emission in hybrid aspen.
001D63 (2015) Jasper Bloemen [Belgique] ; Ingvar Bauweraerts ; Filip De Vos ; Christian Vanhove ; Stefaan Vandenberghe ; Pascal Boeckx ; Kathy SteppeFate of xylem-transported 11C- and 13C-labeled CO2 in leaves of poplar.
001F14 (2015) Dan Wang [États-Unis] ; Deepak Jaiswal [États-Unis] ; David S. Lebauer [États-Unis] ; Timothy M. Wertin [États-Unis] ; Germán A. Bollero [États-Unis] ; Andrew D B. Leakey [États-Unis] ; Stephen P. Long [États-Unis]A physiological and biophysical model of coppice willow (Salix spp.) production yields for the contiguous USA in current and future climate scenarios.

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