Articles citing this paper
Estimating the internal conductance to CO2 movement
Charles Warren A
+ Author Affiliations
- Author Affiliations
A School of Forest and Ecosystem Science, The University of Melbourne, Water Street, Creswick, Vic. 3363, Australia. Email: crwarren@unimelb.edu.au
B This paper originates from a presentation at ECOFIZZ 2005, North Stradbroke Island, Queensland, Australia, November 2005.
Functional Plant Biology 33(5) 431-442 https://doi.org/10.1071/FP05298
Submitted: 9 December 2005 Accepted: 2 February 2006 Published: 2 May 2006
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Tazoe Youshi,
von Caemmerer Susanne,
Badger Murray R., Evans John R.
Journal of Experimental Botany. 2009 60(8). p.2291
Water Scarcity and Sustainable Agriculture in Semiarid Environment (2018)
Rapid variations of mesophyll conductance in response to changes in CO2 concentration around leaves
FLEXAS JAUME,
DIAZ‐ESPEJO ANTONIO,
GALMÉS JERONI,
KALDENHOFF RALF,
MEDRANO HIPÓLITO, RIBAS‐CARBO MIQUEL
Plant, Cell & Environment. 2007 30(10). p.1284
On measuring the response of mesophyll conductance to carbon dioxide with the variable J method
Gilbert Matthew Edmund,
Pou Alícia,
Zwieniecki Maciej Andrzej, Holbrook N. Michele
Journal of Experimental Botany. 2012 63(1). p.413
Effects of the interaction between vapor-pressure deficit and potassium on the photosynthesis system of tomato seedlings under low temperature
Zhang Jiayu,
Ding Juping,
Ibrahim Musawar,
Jiao Xiaocong,
Song Xiaoming,
Bai Ping, Li Jianming
Scientia Horticulturae. 2021 283 p.110089
Cellular perspectives for improving mesophyll conductance
Lundgren Marjorie R., Fleming Andrew J.
The Plant Journal. 2020 101(4). p.845
Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination
Flexas Jaume,
Scoffoni Christine,
Gago Jorge, Sack Lawren
Journal of Experimental Botany. 2013 64(13). p.3965
Photorespiration (2017)
Partitioning net ecosystem exchange of CO2: A comparison of a Bayesian/isotope approach to environmental regression methods
Zobitz J. M.,
Burns S. P.,
Ogée J.,
Reichstein M., Bowling D. R.
Journal of Geophysical Research: Biogeosciences. 2007 112(G3).
Nutrition-mediated cell and tissue-level anatomy triggers the covariation of leaf photosynthesis and leaf mass per area
Lu Zhifeng,
Ren Tao,
Li Jing,
Hu Wenshi,
Zhang Jianglin,
Yan Jinyao,
Li Xiaokun,
Cong Rihuan,
Guo Shiwei,
Lu Jianwei, Raines Christine
Journal of Experimental Botany. 2020 71(20). p.6524
Is mesophyll conductance to CO2 in leaves of three Eucalyptus species sensitive to short-term changes of irradiance under ambient as well as low O2?
Douthe Cyril,
Dreyer Erwin,
Brendel Oliver, Warren Charles R.
Functional Plant Biology. 2012 39(5). p.435
Artefactual responses of mesophyll conductance to CO2 and irradiance estimated with the variable J and online isotope discrimination methods
GU LIANHONG, SUN YING
Plant, Cell & Environment. 2014 37(5). p.1231
The Leaf: A Platform for Performing Photosynthesis (2018)
Optimizing the statistical estimation of the parameters of the Farquhar–von Caemmerer–Berry model of photosynthesis
Dubois Jean‐Jacques B.,
Fiscus Edwin L.,
Booker Fitzgerald L.,
Flowers Michael D., Reid Chantal D.
New Phytologist. 2007 176(2). p.402
Current methods for estimating the rate of photorespiration in leaves
Busch F. A.
Plant Biology. 2013 15(4). p.648
Genetic control of mesophyll conductance in common wheat
Barbour Margaret M.,
Bachmann Sarah,
Bansal Urmil,
Bariana Harbans, Sharp Peter
New Phytologist. 2016 209(2). p.461
Revisiting carbon isotope discrimination in C3 plants shows respiration rules when photosynthesis is low
Busch Florian A.,
Holloway-Phillips Meisha,
Stuart-Williams Hilary, Farquhar Graham D.
Nature Plants. 2020 6(3). p.245
Dynamic changes of canopy‐scale mesophyll conductance to CO2 diffusion of sunflower as affected by CO2 concentration and abscisic acid
SCHÄUFELE RUDI,
SANTRUCEK JIRI, SCHNYDER HANS
Plant, Cell & Environment. 2011 34(1). p.127
Research on the photoprotection and photosynthesis characteristics of young cotton leaves under field conditions
LI Wei,
ZHANG Ya-Li,
HU Yuan-Yuan,
YANG Mei-Sen,
WU Jie, ZHANG Wang-Feng
Chinese Journal of Plant Ecology. 2013 36(7). p.662
On the effect of heavy water (D2O) on carbon isotope fractionation in photosynthesis
Tcherkez Guillaume, Farquhar Graham D.
Functional Plant Biology. 2008 35(3). p.201
Variation in mesophyll anatomy and photosynthetic capacity during leaf development in a deciduous mesophyte fruit tree (Prunus persica) and an evergreen sclerophyllous Mediterranean shrub (Olea europaea)
Marchi S.,
Tognetti R.,
Minnocci A.,
Borghi M., Sebastiani L.
Trees. 2008 22(4). p.559
Disentangling the contributions of ontogeny and water stress to photosynthetic limitations in almond trees
EGEA GREGORIO,
GONZÁLEZ‐REAL MARÍA M.,
BAILLE ALAIN,
NORTES PEDRO A., DIAZ‐ESPEJO ANTONIO
Plant, Cell & Environment. 2011 34(6). p.962
Leaf anatomical adaptations have central roles in photosynthetic acclimation to humidity
Du Qingjie,
Liu Tao,
Jiao Xiaocong,
Song Xiaoming,
Zhang Jiayu, Li Jianming
Journal of Experimental Botany. 2019 70(18). p.4949
Photorespiration in the context of Rubisco biochemistry, CO2 diffusion and metabolism
Busch Florian A.
The Plant Journal. 2020 101(4). p.919
Differences in the photosynthetic plasticity of ferns and Ginkgo grown in experimentally controlled low [O2]:[CO2] atmospheres may explain their contrasting ecological fate across the Triassic–Jurassic mass extinction boundary
Yiotis C.,
Evans-Fitz.Gerald C., McElwain J. C.
Annals of Botany. 2017 119(8). p.1385
Changes in Leaf-Level Nitrogen Partitioning and Mesophyll Conductance Deliver Increased Photosynthesis for Lolium perenne Leaves Engineered to Accumulate Lipid Carbon Sinks
Cooney Luke J.,
Beechey-Gradwell Zac,
Winichayakul Somrutai,
Richardson Kim A.,
Crowther Tracey,
Anderson Philip,
Scott Richard W.,
Bryan Gregory, Roberts Nicholas J.
Frontiers in Plant Science. 2021 12
Effects of vapor pressure deficit combined with different N levels on tomato seedling anatomy, photosynthetic performance, and N uptake
Jiao Xiaocong,
Yu Xuemei,
Yuan Yajing, Li Jianming
Plant Science. 2022 324 p.111448
Does ontogeny modulate irradiance-elicited plasticity of leaf traits in saplings of rain-forest tree species? A test with Dicorynia guianensis and Tachigali melinonii (Fabaceae, Caesalpinioideae)
Coste Sabrina,
Roggy Jean-Christophe,
Garraud Laurianne,
Heuret Patrick,
Nicolini Eric, Dreyer Erwin
Annals of Forest Science. 2009 66(7). p.709
Stomatal responses to long-term high vapor pressure deficits mediated most limitation of photosynthesis in tomatoes
Du Qingjie,
Xing Guoming,
Jiao Xiaocong,
Song Xiaoming, Li Jianming
Acta Physiologiae Plantarum. 2018 40(8).
A Comparison in Growth and Water Use Efficiency between Superior and Inferior Families from Open-Pollinated Progenies of Pinus densiflora under Different Environmental Conditions
Oh Chang-Young,
Han Sang-Urk,
Cheon Byung-Whan, Oh Chan-Jin
Korean Journal of Agricultural and Forest Meteorology. 2013 15(2). p.102
Theoretical reconsiderations when estimating the mesophyll conductance to CO2 diffusion in leaves of C3 plants by analysis of combined gas exchange and chlorophyll fluorescence measurements
YIN XINYOU, STRUIK PAUL C.
Plant, Cell & Environment. 2009 32(11). p.1513
Underestimated chlorophyll a fluorescence measurements on Buxus microphylla red winter leaves
Peng J. G.,
Jiang X. R.,
Xu J.,
Guo L.,
Gao R. F., Liu Y.
Photosynthetica. 2017 55(4). p.561
Crop Photosynthetic Performance Monitoring Based on a Combined System of Measured and Modelled Chloroplast Electron Transport Rate in Greenhouse Tomato
Yu Wenjuan,
Körner Oliver, Schmidt Uwe
Frontiers in Plant Science. 2020 11
Asymmetrical effects of mesophyll conductance on fundamental photosynthetic parameters and their relationships estimated from leaf gas exchange measurements
SUN YING,
GU LIANHONG,
DICKINSON ROBERT E.,
PALLARDY STEPHEN G.,
BAKER JOHN,
CAO YONGHUI,
DAMATTA FÁBIO MURILO,
DONG XUEJUN,
ELLSWORTH DAVID,
VAN GOETHEM DAVINA,
JENSEN ANNA M.,
LAW BEVERLY E.,
LOOS RODOLFO,
MARTINS SAMUEL C. VITOR,
NORBY RICHARD J.,
WARREN JEFFREY,
WESTON DAVID, WINTER KLAUS
Plant, Cell & Environment. 2014 37(4). p.978
Lack of genetic variation in tree ring 13C suggests a uniform, stomatally-driven response to drought stress across Pinus radiata genotypes
Rowell D. M.,
Ades P. K.,
Tausz M.,
Arndt S. K., Adams M. A.
Tree Physiology. 2008 29(2). p.191
Leaf carbon assimilation in a water-limited world
Loreto Francesco, Centritto Mauro
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2008 142(1). p.154
Assessing the Effects of Water Deficit on Photosynthesis Using Parameters Derived from Measurements of Leaf Gas Exchange and of Chlorophyll a Fluorescence
Urban Laurent,
Aarrouf Jawad, Bidel Luc P. R.
Frontiers in Plant Science. 2017 8
Transgenic Rice Expressing Ictb and FBP/Sbpase Derived from Cyanobacteria Exhibits Enhanced Photosynthesis and Mesophyll Conductance to CO2
Gong Han Yu,
Li Yang,
Fang Gen,
Hu Dao Heng,
Jin Wen Bin,
Wang Zhao Hai,
Li Yang Sheng, Chen Fan
PLOS ONE. 2015 10(10). p.e0140928
Viewpoint: Avoiding common pitfalls of chlorophyll fluorescence analysis under field conditions
Logan Barry A.,
Adams William W., Demmig-Adams Barbara
Functional Plant Biology. 2007 34(9). p.853
Estimation of canopy average mesophyll conductance using δ13C of phloem contents
UBIERNA NEREA, MARSHALL JOHN D.
Plant, Cell & Environment. 2011 34(9). p.1521
The role of mesophyll conductance in the economics of nitrogen and water use in photosynthesis
Buckley Thomas N., Warren Charles R.
Photosynthesis Research. 2014 119(1-2). p.77
Seasonal evolution of diffusional limitations and photosynthetic capacity in olive under drought
DIAZ‐ESPEJO ANTONIO,
NICOLÁS EMILIO, FERNÁNDEZ JOSÉ ENRIQUE
Plant, Cell & Environment. 2007 30(8). p.922
Genotype differences in 13C discrimination between atmosphere and leaf matter match differences in transpiration efficiency at leaf and whole‐plant levels in hybrid Populus deltoides ×nigra
RASHEED FAHAD,
DREYER ERWIN,
RICHARD BÉATRICE,
BRIGNOLAS FRANCK,
MONTPIED PIERRE, LE THIEC DIDIER
Plant, Cell & Environment. 2013 36(1). p.87
Photosynthesis Gas Exchange System with Internal CO2 Directly Measured
BOYER John S., KAWAMITSU Yoshinobu
Environment Control in Biology. 2011 49(4). p.193
An Excel tool for deriving key photosynthetic parameters from combined gas exchange and chlorophyll fluorescence: theory and practice
Bellasio Chandra,
Beerling David J, Griffiths Howard
Plant, Cell & Environment. 2016 39(6). p.1180
ccaA and FBP/SBPase Derived From Cyanobacteria Improved Photosynthetic Capacity in Rice
Gong Han Y.,
Li Yang,
Fang Gen,
Hu Dao H.,
Wang Zhao H.,
Yu Guang H., Li Yang S.
Plant Molecular Biology Reporter. 2017 35(6). p.619
On the 13C/12C isotopic signal of day and night respiration at the mesocosm level
TCHERKEZ GUILLAUME,
SCHÄUFELE RUDI,
NOGUÉS SALVADOR,
PIEL CLÉMENT,
BOOM ARNOUD,
LANIGAN GARY,
BARBAROUX CÉCILE,
MATA CATARINA,
ELHANI SLIMAN,
HEMMING DEBBIE,
MAGUAS CHRISTINA,
YAKIR DAN,
BADECK FRANZ W.,
GRIFFITHS HOWARD,
SCHNYDER HANS, GHASHGHAIE JALEH
Plant, Cell & Environment. 2010 33(6). p.900
Mesophyll conductance to CO2: current knowledge and future prospects
FLEXAS JAUME,
RIBAS‐CARBÓ MIQUEL,
DIAZ‐ESPEJO ANTONIO,
GALMÉS JERONI, MEDRANO HIPÓLITO
Plant, Cell & Environment. 2008 31(5). p.602
Photosynthesis under drought and salt stress: regulation mechanisms from whole plant to cell
Chaves M. M.,
Flexas J., Pinheiro C.
Annals of Botany. 2009 103(4). p.551
Temporal variation of nonstructural carbohydrates in montane conifers: similarities and differences among developmental stages, species and environmental conditions
Bansal S., Germino M. J.
Tree Physiology. 2009 29(4). p.559
Expanding roles of plant aquaporins in plasma membranes and cell organelles
Katsuhara Maki,
Hanba Yuko T.,
Shiratake Katsuhiro, Maeshima Masayoshi
Functional Plant Biology. 2008 35(1). p.1
Estimating mesophyll conductance to CO2: methodology, potential errors, and recommendations
Pons Thijs L.,
Flexas Jaume,
von Caemmerer Susanne,
Evans John R.,
Genty Bernard,
Ribas-Carbo Miquel, Brugnoli Enrico
Journal of Experimental Botany. 2009 60(8). p.2217
A meta-analysis of mesophyll conductance to CO2 in relation to major abiotic stresses in poplar species
Elferjani Raed,
Benomar Lahcen,
Momayyezi Mina,
Tognetti Roberto,
Niinemets Ülo,
Soolanayakanahally Raju Y,
Théroux-Rancourt Guillaume,
Tosens Tiina,
Ripullone Francesco,
Bilodeau-Gauthier Simon,
Lamhamedi Mohammed S,
Calfapietra Carlo,
Lamara Mebarek, Gleadow Ros
Journal of Experimental Botany. 2021 72(12). p.4384
Water deficit affects mesophyll limitation of leaves more strongly in sun than in shade in two contrasting Picea asperata populations
Duan B.,
Li Y.,
Zhang X.,
Korpelainen H., Li C.
Tree Physiology. 2009 29(12). p.1551
Modulation of leaf physiology by age and in response to abiotic constraints in young cuttings of two Populus deltoides × P. nigra genotypes
Marron Nicolas,
Brignolas Franck,
Delmotte Francis M., Dreyer Erwin
Annals of Forest Science. 2008 65(4). p.404
Calibration matters: On the procedure of using the chlorophyll fluorescence method to estimate mesophyll conductance
van der Putten Peter E.L.,
Yin Xinyou, Struik Paul C.
Journal of Plant Physiology. 2018 220 p.167
Photosynthesis in silico (2009)
Implications of the mesophyll conductance to CO2 for photosynthesis and water‐use efficiency during long‐term water stress and recovery in two contrasting Eucalyptus species
CANO F. JAVIER,
LÓPEZ ROSANA, WARREN CHARLES R.
Plant, Cell & Environment. 2014 37(11). p.2470
Seasonal time-course of gradients of photosynthetic capacity and mesophyll conductance to CO2 across a beech (Fagus sylvatica L.) canopy
Montpied Pierre,
Granier André, Dreyer Erwin
Journal of Experimental Botany. 2009 60(8). p.2407
The role of mesophyll conductance during water stress and recovery in tobacco (Nicotiana sylvestris): acclimation or limitation?
Galle Alexander,
Florez-Sarasa Igor,
Tomas Magdalena,
Pou Alicia,
Medrano Hipolito,
Ribas-Carbo Miquel, Flexas Jaume
Journal of Experimental Botany. 2009 60(8). p.2379
Effects of soil rewatering on mesophyll and stomatal conductance and the associated mechanisms involving leaf anatomy and some physiological activities in Manchurian ash and Mongolian oak in the Changbai Mountains
Zhu Kai,
Yuan Fenghui,
Wang Anzhi,
Yang Hong,
Guan Dexin,
Jin Changjie,
Zhang Hongxia,
Zhang Yushu, Wu Jiabing
Plant Physiology and Biochemistry. 2019 144 p.22
Diffusional conductances to CO2 as a target for increasing photosynthesis and photosynthetic water-use efficiency
Flexas Jaume,
Niinemets Ülo,
Gallé Alexander,
Barbour Margaret M.,
Centritto Mauro,
Diaz-Espejo Antonio,
Douthe Cyril,
Galmés Jeroni,
Ribas-Carbo Miquel,
Rodriguez Pedro L.,
Rosselló Francesc,
Soolanayakanahally Raju,
Tomas Magdalena,
Wright Ian J.,
Farquhar Graham D., Medrano Hipólito
Photosynthesis Research. 2013 117(1-3). p.45
Plant Responses to Drought and Salinity Stress - Developments in a Post-Genomic Era (2011)
Exploring the potential of Δ17O in CO2 for determining mesophyll conductance
Adnew Getachew Agmuas,
Pons Thijs L,
Koren Gerbrand,
Peters Wouter, Röckmann Thomas
Plant Physiology. 2023 192(2). p.1234
Drought‐induced hydraulic limitations constrain leaf gas exchange recovery after precipitation pulses in the C3 woody legume, Prosopis velutina
Resco Víctor,
Ewers Brent E.,
Sun Wei,
Huxman Travis E.,
Weltzin Jake F., Williams David G.
New Phytologist. 2009 181(3). p.672
Mesophyll diffusion conductance to CO2: An unappreciated central player in photosynthesis
Flexas Jaume,
Barbour Margaret M.,
Brendel Oliver,
Cabrera Hernán M.,
Carriquí Marc,
Díaz-Espejo Antonio,
Douthe Cyril,
Dreyer Erwin,
Ferrio Juan P.,
Gago Jorge,
Gallé Alexander,
Galmés Jeroni,
Kodama Naomi,
Medrano Hipólito,
Niinemets Ülo,
Peguero-Pina José J.,
Pou Alicia,
Ribas-Carbó Miquel,
Tomás Magdalena,
Tosens Tiina, Warren Charles R.
Plant Science. 2012 193-194 p.70
Functional modulation of an aquaporin to intensify photosynthesis and abrogate bacterial virulence in rice
Chen Xiaochen,
Ma Jinbiao,
Wang Xuan,
Lu Kai,
Liu Yan,
Zhang Liyuan,
Peng Jinfeng,
Chen Lei,
Yang Minkai,
Li Yang,
Cheng Zaiquan,
Xiao Suqin,
Yu Jinfeng,
Zou Shenshen,
Liang Yuancun,
Zhang Meixiang,
Yang Yonghua,
Ding Xinhua, Dong Hansong
The Plant Journal. 2021 108(2). p.330
C3 and C4 photosynthesis models: An overview from the perspective of crop modelling
Yin X., Struik P.C.
NJAS: Wageningen Journal of Life Sciences. 2009 57(1). p.27
How succulent leaves of Aizoaceae avoid mesophyll conductance limitations of photosynthesis and survive drought
Ripley Brad S.,
Abraham Trevor,
Klak Cornelia, Cramer Michael D.
Journal of Experimental Botany. 2013 64(18). p.5485
Plants increase CO2 uptake by assimilating nitrogen via the photorespiratory pathway
Busch Florian A.,
Sage Rowan F., Farquhar Graham D.
Nature Plants. 2017 4(1). p.46
Photosynthetic limitations in response to water stress and recovery in Mediterranean plants with different growth forms
Galmés Jeroni,
Medrano Hipólito, Flexas Jaume
New Phytologist. 2007 175(1). p.81
Partitioning net ecosystem carbon exchange and the carbon isotopic disequilibrium in a subalpine forest
ZOBITZ JOHN M.,
BURNS SEAN P.,
REICHSTEIN MARKUS, BOWLING DAVID R.
Global Change Biology. 2008 14(8). p.1785
Causes of decreased photosynthetic rate and metabolic capacity in water-deficient leaf cells: a critical evaluation of mechanisms and integration of processes
Lawlor David W., Tezara Wilmer
Annals of Botany. 2009 103(4). p.561
The response of mesophyll conductance to ozone-induced oxidative stress is genotype-dependent in poplar
Joffe Ricardo,
Berthe Audrey,
Jolivet Yves,
Gandin Anthony, Kromdijk Johannes
Journal of Experimental Botany. 2022 73(14). p.4850
Resistances along the CO2 diffusion pathway inside leaves
Evans J. R.,
Kaldenhoff R.,
Genty B., Terashima I.
Journal of Experimental Botany. 2009 60(8). p.2235
Enhanced assimilation rate and water use efficiency with latitude through increased photosynthetic capacity and internal conductance in balsam poplar (Populus balsamifera L.)
SOOLANAYAKANAHALLY RAJU Y.,
GUY ROBERT D.,
SILIM SALIM N.,
DREWES ERIC C., SCHROEDER WILLIAM R.
Plant, Cell & Environment. 2009 32(12). p.1821
Carbon assimilation, 𝛅13C and water relations ofElaeagnus angustifoliagrown at two groundwater depths in the Minqin desert, China
Shi Z.,
Cheng R.,
Liu S.,
Sorrentino G., Centritto M.
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2008 142(3). p.525
Influence of leaf dry mass per area, CO2, and irradiance on mesophyll conductance in sclerophylls
Hassiotou Foteini,
Ludwig Martha,
Renton Michael,
Veneklaas Erik J., Evans John R.
Journal of Experimental Botany. 2009 60(8). p.2303
Mesophyll conductance to CO2 transport estimated by two independent methods: effect of variable CO2 concentration and abscisic acid
Vrábl D.,
Vašková M.,
Hronková M.,
Flexas J., Šantrůček J.
Journal of Experimental Botany. 2009 60(8). p.2315
Photosystem II Cycle and Alternative Electron Flow in Leaves
Laisk Agu,
Eichelmann Hillar,
Oja Vello,
Rasulov Bakhtier, Rämma Heikko
Plant and Cell Physiology. 2006 47(7). p.972
Contrasting patterns of sun-red and shade-green leaves of Buxus microphylla in response to gradients of excess light during winter acclimation
Peng Jingen,
Jiang Xueru,
Jia Mengxue,
Guo Ling,
Gao Rongfu, Liu Yan
Acta Physiologiae Plantarum. 2016 38(10).
Frequently asked questions about in vivo chlorophyll fluorescence: practical issues
Kalaji Hazem M.,
Schansker Gert,
Ladle Richard J.,
Goltsev Vasilij,
Bosa Karolina,
Allakhverdiev Suleyman I.,
Brestic Marian,
Bussotti Filippo,
Calatayud Angeles,
Dąbrowski Piotr,
Elsheery Nabil I.,
Ferroni Lorenzo,
Guidi Lucia,
Hogewoning Sander W.,
Jajoo Anjana,
Misra Amarendra N.,
Nebauer Sergio G.,
Pancaldi Simonetta,
Penella Consuelo,
Poli DorothyBelle,
Pollastrini Martina,
Romanowska-Duda Zdzislawa B.,
Rutkowska Beata,
Serôdio João,
Suresh Kancherla,
Szulc Wiesław,
Tambussi Eduardo,
Yanniccari Marcos, Zivcak Marek
Photosynthesis Research. 2014 122(2). p.121
Kinetics of leaf oxygen uptake represent in planta activities of respiratory electron transport and terminal oxidases
Laisk Agu,
Oja Vello, Eichelmann Hillar
Physiologia Plantarum. 2007 131(1). p.1
Use of the response of photosynthesis to oxygen to estimate mesophyll conductance to carbon dioxide in water‐stressed soybean leaves
BUNCE JAMES A.
Plant, Cell & Environment. 2009 32(7). p.875
Leaf phenology and seasonal variation of photosynthesis of invasive Berberis thunbergii (Japanese barberry) and two co-occurring native understory shrubs in a northeastern United States deciduous forest
Xu Cheng-Yuan,
Griffin Kevin L., Schuster W. S. F.
Oecologia. 2007 154(1). p.11
Leaf gas exchange, carbon isotope discrimination, and grain yield in contrasting rice genotypes subjected to water deficits during the reproductive stage
Centritto Mauro,
Lauteri Marco,
Monteverdi Maria Cristina, Serraj Rachid
Journal of Experimental Botany. 2009 60(8). p.2325
Improving the estimation of mesophyll conductance to CO2: on the role of electron transport rate correction and respiration
Martins Samuel C.V.,
Galmés Jeroni,
Molins Arántzazu, DaMatta Fábio M.
Journal of Experimental Botany. 2013 64(11). p.3285
Altitudinal variation in photosynthetic capacity, diffusional conductance and δ13C of butterfly bush (Buddleja davidii) plants growing at high elevations
Shi Zuomin,
Liu Shirong,
Liu Xingliang, Centritto Mauro
Physiologia Plantarum. 2006 128(4). p.722
Complementary resource use by tree species in a rain forest tree plantation
Richards Anna E., Schmidt Susanne
Ecological Applications. 2010 20(5). p.1237
The strategies of water–carbon regulation of plants in a subtropical primary forest on karst soils in China
Wang Jing,
Wen Xuefa,
Zhang Xinyu, Li Shenggong
Biogeosciences. 2018 15(13). p.4193
Photosynthesis in Action (2022)
A reporting format for leaf-level gas exchange data and metadata
Ely Kim S.,
Rogers Alistair,
Agarwal Deborah A.,
Ainsworth Elizabeth A.,
Albert Loren P.,
Ali Ashehad,
Anderson Jeremiah,
Aspinwall Michael J.,
Bellasio Chandra,
Bernacchi Carl,
Bonnage Steve,
Buckley Thomas N.,
Bunce James,
Burnett Angela C.,
Busch Florian A.,
Cavanagh Amanda,
Cernusak Lucas A.,
Crystal-Ornelas Robert,
Damerow Joan,
Davidson Kenneth J.,
De Kauwe Martin G.,
Dietze Michael C.,
Domingues Tomas F.,
Dusenge Mirindi Eric,
Ellsworth David S.,
Evans John R.,
Gauthier Paul P.G.,
Gimenez Bruno O.,
Gordon Elizabeth P.,
Gough Christopher M.,
Halbritter Aud H.,
Hanson David T.,
Heskel Mary,
Hogan J. Aaron,
Hupp Jason R.,
Jardine Kolby,
Kattge Jens,
Keenan Trevor,
Kromdijk Johannes,
Kumarathunge Dushan P.,
Lamour Julien,
Leakey Andrew D.B.,
LeBauer David S.,
Li Qianyu,
Lundgren Marjorie R.,
McDowell Nate,
Meacham-Hensold Katherine,
Medlyn Belinda E.,
Moore David J.P.,
Negrón-Juárez Robinson,
Niinemets Ülo,
Osborne Colin P.,
Pivovaroff Alexandria L.,
Poorter Hendrik,
Reed Sasha C.,
Ryu Youngryel,
Sanz-Saez Alvaro,
Schmiege Stephanie C.,
Serbin Shawn P.,
Sharkey Thomas D.,
Slot Martijn,
Smith Nicholas G.,
Sonawane Balasaheb V.,
South Paul F.,
Souza Daisy C.,
Stinziano Joseph Ronald,
Stuart-Haëntjens Ellen,
Taylor Samuel H.,
Tejera Mauricio D.,
Uddling Johan,
Vandvik Vigdis,
Varadharajan Charuleka,
Walker Anthony P.,
Walker Berkley J.,
Warren Jeffrey M.,
Way Danielle A.,
Wolfe Brett T.,
Wu Jin,
Wullschleger Stan D.,
Xu Chonggang,
Yan Zhengbing, Yang Dedi
Ecological Informatics. 2021 61 p.101232
