Articles citing this paper
Photosynthetic Acclimation and Nitrogen Partitioning Within a Lucerne Canopy. II. Stability Through Time and Comparison With a Theoretical Optimum
JR Evans
20(1) pp.69 - 82
93 articles found in Crossref database.
Roles of canopy architecture and nitrogen distribution in the better performance of an aerobic than a lowland rice cultivar under water deficit
Ouyang Wenjing,
Yin Xinyou,
Yang Jianchang, Struik Paul C.
Field Crops Research. 2021 271 p.108257
(1997)
Responses of the photosynthetic apparatus to winter conditions in broadleaved evergreen trees growing in warm temperate regions of Japan
Tanaka Chizuru,
Nakano Takashi,
Yamazaki Jun-ya, Maruta Emiko
Plant Physiology and Biochemistry. 2015 86 p.147
Photochemistry and Antioxidative Capacity of Female and Male Taxus baccata L. Acclimated to Different Nutritional Environments
Robakowski Piotr,
Pers-Kamczyc Emilia,
Ratajczak Ewelina,
Thomas Peter A.,
Ye Zi-Piao,
Rabska Mariola, Iszkuło Grzegorz
Frontiers in Plant Science. 2018 9
Within‐canopy variation in the rate of development of photosynthetic capacity is proportional to integrated quantum flux density in temperate deciduous trees
NIINEMETS Ü.,
KULL O., TENHUNEN J. D.
Plant, Cell & Environment. 2004 27(3). p.293
Effects of canopy shade on the lipid composition of soybean leaves
Burkey Kent O.,
Wilson Richard F., Wells Randy
Physiologia Plantarum. 1997 101(3). p.591
Plant Physiological Ecology (2008)
Measuring the impact of flooding on Amazonian trees: photosynthetic response models for ten species flooded by hydroelectric dams
dos Santos Junior U. M.,
de Carvalho Gonçalves J. F., Fearnside Philip Martin
Trees. 2013 27(1). p.193
LEAFC3-N: a nitrogen-sensitive extension of the CO2 and H2O gas exchange model LEAFC3 parameterised and tested for winter wheat (Triticum aestivum L.)
Müller Johannes,
Wernecke Peter, Diepenbrock Wulf
Ecological Modelling. 2005 183(2-3). p.183
The role of nitrogen in a simple scheme to scale up photosynthesis from leaf to canopy
KULL O., JARVIS P. G.
Plant, Cell & Environment. 1995 18(10). p.1174
Coupling a detailed photosynthetic model with foliage distribution and light attenuation functions to compute daily gross photosynthesis in sugar maple (Acer saccharum Marsh.) stands
Larocque Guy R
Ecological Modelling. 2002 148(3). p.213
Profiles of 14C fixation through spinach leaves in relation to light absorption and photosynthetic capacity
EVANS J. R., VOGELMANN T. C.
Plant, Cell & Environment. 2003 26(4). p.547
The impact of modifying photosystem antenna size on canopy photosynthetic efficiency—Development of a new canopy photosynthesis model scaling from metabolism to canopy level processes
Song Qingfeng,
Wang Yu,
Qu Mingnan,
Ort Donald R., Zhu Xin‐Guang
Plant, Cell & Environment. 2017 40(12). p.2946
Ecotoxicological and genotoxic effects of dimethyl phthalate (DMP) on Lemna minor L. and Spirodela polyrhiza (L.) Schleid. plants under a short-term laboratory assay
Pietrini Fabrizio,
Iannilli Valentina,
Passatore Laura,
Carloni Serena,
Sciacca Giulia,
Cerasa Marina, Zacchini Massimo
Science of The Total Environment. 2022 806 p.150972
How does structure matter? Comparison of canopy photosynthesis using one- and three-dimensional light models: a case study using greenhouse cucumber canopies
Pao Yi-Chen,
Kahlen Katrin,
Chen Tsu-Wei,
Wiechers Dirk,
Stützel Hartmut,
Steppe Kathy,
Long Stephen P, Steppe Kathy
in silico Plants. 2021 3(2).
Energy sorghum hybrids: Functional dynamics of high nitrogen use efficiency
Olson Sara N.,
Ritter Kimberley,
Medley Jim,
Wilson Ted,
Rooney William L., Mullet John E.
Biomass and Bioenergy. 2013 56 p.307
Morphological and physiological properties of indoor cultivated lettuce in response to additional far-red light
Zou Jie,
Zhang Yating,
Zhang Yuqi,
Bian Zhonghua,
Fanourakis Dimitrios,
Yang Qichang, Li Tao
Scientia Horticulturae. 2019 257 p.108725
Nitrogen allocation in response to partial shading of a plant: Possible mechanisms
Pons Thijs L., Bergkotte Marc
Physiologia Plantarum. 1996 98(3). p.571
Photosynthesis in Bryophytes and Early Land Plants (2014)
Effects of long-term CO2 and temperature elevation on crown nitrogen distribution and daily photosynthetic performance of Scots pine
Kellomäki Seppo, Wang Kai-Yun
Forest Ecology and Management. 1997 99(3). p.309
What does optimization theory actually predict about crown profiles of photosynthetic capacity when models incorporate greater realism?
BUCKLEY THOMAS N.,
CESCATTI ALESSANDRO, FARQUHAR GRAHAM D.
Plant, Cell & Environment. 2013 36(8). p.1547
Photosynthetic characteristics of leaves of male‐sterile and hermaphrodite sex types of Plantago lanceolata grown under conditions of contrasting nitrogen and light availabilities
Poot Pieter,
Pilon Jorn, Pons Thijs L.
Physiologia Plantarum. 1996 98(4). p.780
Modelling forest response to increasing CO2 concentration under nutrient‐limited conditions
KIRSCHBAUM M. U. F.,
KING D. A.,
COMINS H. N.,
MCMURTRIE R. E.,
MEDLYN B. E.,
PONGRACIC S.,
MURTY D.,
KEITH H.,
RAISON R. J.,
KHANNA P. K., SHERIFF D. W.
Plant, Cell & Environment. 1994 17(10). p.1081
Contributions of leaf photosynthetic capacity, leaf angle and self-shading to the maximization of net photosynthesis in Acer saccharum: a modelling assessment
Posada Juan M.,
Sievänen Risto,
Messier Christian,
Perttunen Jari,
Nikinmaa Eero, Lechowicz Martin J.
Annals of Botany. 2012 110(3). p.731
Photosynthetic acclimation of plants to growth irradiance: the relative importance of specific leaf area and nitrogen partitioning in maximizing carbon gain
Evans J. R., Poorter H.
Plant, Cell & Environment. 2001 24(8). p.755
Leaf‐level phenotypic variability and plasticity of invasive Rhododendron ponticum and non‐invasive Ilex aquifolium co‐occurring at two contrasting European sites
NIINEMETS Ü.,
VALLADARES F., CEULEMANS R.
Plant, Cell & Environment. 2003 26(6). p.941
Optimal coordination between photosynthetic acclimation strategy and canopy architecture in two contrasting cucumber cultivars
Pao Yi-Chen,
Stützel Hartmut,
Chen Tsu-Wei,
Zhu Junqi, Long Stephen P
in silico Plants. 2023 5(2).
Is plasticity in partitioning of photosynthetic resources between and within leaves important for whole‐plant carbon gain in canopies?
PONS T. L., ANTEN N. P. R.
Functional Ecology. 2004 18(6). p.802
Novel resistance mechanism of barley chlorina f104 antenna mutant against photoinhibition: possible role of new identified chloroplastic cpNrp protein
Brestič Marián,
Živčák Marek,
Ďatko Miroslav,
Olšovská Katarína,
Sytar Oksana, Shao Hongbo
Theoretical and Experimental Plant Physiology. 2015 27(1). p.75
Functional Plant Ecology, Second Edition (2007)
Leaf nitrogen distribution to maximize the canopy photosynthesis in rice
Shiratsuchi Hiroyuki,
Yamagishi Tohru, Ishii Ryuichi
Field Crops Research. 2006 95(2-3). p.291
Chlorophyll Fluorescence, Understanding Crop Performance (2017)
Environmental triggers for photosynthetic protein turnover determine the optimal nitrogen distribution and partitioning in the canopy
Pao Yi-Chen,
Chen Tsu-Wei,
Moualeu-Ngangue Dany Pascal, Stützel Hartmut
Journal of Experimental Botany. 2019 70(9). p.2419
Using combined measurements of gas exchange and chlorophyll fluorescence to estimate parameters of a biochemical C3 photosynthesis model: a critical appraisal and a new integrated approach applied to leaves in a wheat (Triticum aestivum) canopy
YIN XINYOU,
STRUIK PAUL C.,
ROMERO PASCUAL,
HARBINSON JEREMY,
EVERS JOCHEM B.,
VAN DER PUTTEN PETER E. L., VOS JAN
Plant, Cell & Environment. 2009 32(5). p.448
A model separating leaf structural and physiological effects on carbon gain along light gradients for the shade‐tolerant species Acer saccharum
NIINEMETS Ü., TENHUNEN J. D.
Plant, Cell & Environment. 1997 20(7). p.845
Canopy Photosynthesis: From Basics to Applications (2016)
A test of the optimality approach to modelling canopy properties and CO2 uptake by natural vegetation
SCHYMANSKI STANISLAUS J.,
RODERICK MICHAEL L.,
SIVAPALAN MURUGESU,
HUTLEY LINDSAY B., BERINGER JASON
Plant, Cell & Environment. 2007 30(12). p.1586
Sulfamethoxazole persistence in a river water ecosystem and its effects on the natural microbial community and Lemna minor plant
Grenni Paola,
Patrolecco Luisa,
Rauseo Jasmin,
Spataro Francesca,
Di Lenola Martina,
Aimola Giorgia,
Zacchini Massimo,
Pietrini Fabrizio,
Di Baccio Daniela,
Stanton Isobel C.,
Gaze William H., Barra Caracciolo Anna
Microchemical Journal. 2019 149 p.103999
Interspecific differences in above‐ground growth patterns result in spatial and temporal partitioning of light among species in a tall‐grass meadow
Anten Niels P. R., Hirose Tadaki
Journal of Ecology. 1999 87(4). p.583
Canopy position affects the temperature response of leaf respiration in Populus deltoides
Griffin Kevin L.,
Turnbull Matthew, Murthy Ramesh
New Phytologist. 2002 154(3). p.609
Photoprotective role of rhodoxanthin during cold acclimation in Cryptomeria japonica
HAN Q.,
SHINOHARA K.,
KAKUBARI Y., MUKAI Y.
Plant, Cell & Environment. 2003 26(5). p.715
Photosynthetic responses to chilling in a chilling‐tolerant and chilling‐sensitive Miscanthus hybrid
Friesen P. C., Sage R. F.
Plant, Cell & Environment. 2016 39(7). p.1420
Emerging Contaminants and Plants (2023)
Photosynthetic acclimation in relation to nitrogen allocation in cucumber leaves in response to changes in irradiance
Trouwborst Govert,
Hogewoning Sander W.,
Harbinson Jeremy, van Ieperen Wim
Physiologia Plantarum. 2011 142(2). p.157
Increases of chlorophyll a/b ratios during acclimation of tropical woody seedlings to nitrogen limitation and high light
KITAJIMA K., HOGAN K. P.
Plant, Cell & Environment. 2003 26(6). p.857
Nitrogen reallocation and photosynthetic acclimation in response to partial shading in soybean plants
Pons T.L., Pearcy R. W.
Physiologia Plantarum. 1994 92(4). p.636
Photosynthetic acclimation to light in woody and herbaceous species: a comparison of leaf structure, pigment content and chlorophyll fluorescence characteristics measured in the field
Hallik L.,
Niinemets Ü., Kull O.
Plant Biology. 2012 14(1). p.88
Electron transport efficiency at opposite leaf sides: effect of vertical distribution of leaf angle, structure, chlorophyll content and species in a forest canopy
Mand P.,
Hallik L.,
Penuelas J., Kull O.
Tree Physiology. 2013 33(2). p.202
Canopy CO2 exchange of Scots pine and its seasonal variation after four-year exposure to elevated CO2 and temperature
Wang Kai-Yun
Agricultural and Forest Meteorology. 1996 82(1-4). p.1
Elevated CO2 and nitrogen availability have interactive effects on canopy carbon gain in rice
Anten N. P. R.,
Hirose T.,
Onoda Y.,
Kinugasa T.,
Kim H. Y.,
Okada M., Kobayashi K.
New Phytologist. 2004 161(2). p.459
A model of the acclimation of photosynthesis in the leaves of C3 plants to sun and shade with respect to nitrogen use
HIKOSAKA K., TERASHIMA I.
Plant, Cell & Environment. 1995 18(6). p.605
Leaf-colour modification affects canopy photosynthesis, dry-matter accumulation and yield traits in rice
Zhou Zhenxiang,
Struik Paul C.,
Gu Junfei,
van der Putten Peter E.L.,
Wang Zhiqin,
Yin Xinyou, Yang Jianchang
Field Crops Research. 2023 290 p.108746
N uptake and distribution in crops: an agronomical and ecophysiological perspective
Gastal F., Lemaire G.
Journal of Experimental Botany. 2002 53(370). p.789
Carbon gain in the competition for light between genotypes of the clonal herb Potentilla reptans
Vermeulen Peter J.,
Stuefer Josef F.,
Anten Niels P. R., During Heinjo J.
Journal of Ecology. 2009 97(3). p.508
Photosynthetic responses of sun- and shade-grown barley leaves to high light: is the lower PSII connectivity in shade leaves associated with protection against excess of light?
Zivcak Marek,
Brestic Marian,
Kalaji Hazem M., Govindjee
Photosynthesis Research. 2014 119(3). p.339
Canopy nitrogen distribution and the photosynthetic performance of sunflower crops during grain filling ? a quantitative analysis
Connor D. J.,
Sadras V. O., Hall A. J.
Oecologia. 1995 101(3). p.274
Photon flux partitioning among species along a productivity gradient of an herbaceous plant community
AAN ANNE,
HALLIK LEA, KULL OLEVI
Journal of Ecology. 2006 94(6). p.1143
Contrasting correlation networks between leaf structure, nitrogen and chlorophyll in herbaceous and woody canopies
Hallik Lea,
Kull Olevi,
Niinemets Ülo, Aan Anne
Basic and Applied Ecology. 2009 10(4). p.309
Optimal photosynthetic use of light by tropical tree crowns achieved by adjustment of individual leaf angles and nitrogen content
Posada Juan M.,
Lechowicz Martin J., Kitajima Kaoru
Annals of Botany. 2009 103(5). p.795
Changes in total leaf nitrogen and partitioning of leaf nitrogen drive photosynthetic acclimation to light in fully developed walnut leaves
Frak E.,
Le Roux X.,
Millard P.,
Dreyer E.,
Jaouen G.,
Saint‐Joanis B., Wendler R.
Plant, Cell & Environment. 2001 24(12). p.1279
Experiments for in silico evaluation of Optimality of Photosynthetic Nitrogen Distribution and Partitioning in the Canopy: an Example Using Greenhouse Cucumber Plants
Pao Yi-Chen,
Chen Tsu-Wei,
Moualeu-Ngangue Dany, Stützel Hartmut
BIO-PROTOCOL. 2020 10(6).
A simple formulation of interaction between individuals competing for light in a monospecific stand
Hikosaka K.,
Nagashima H.,
Harada Y., Hirose T.
Functional Ecology. 2001 15(5). p.642
Scaling foliar respiration in two contrasting forest canopies
Turnbull M. H.,
Whitehead D.,
Tissue D. T.,
Schuster W. S. F.,
Brown K. J., Griffin K. L.
Functional Ecology. 2003 17(1). p.101
Canopy Photosynthesis: From Basics to Applications (2016)
Distribution of N, Rubisco and photosynthesis in Pinus pinaster and acclimation to light
Warren C. R., Adams M. A.
Plant, Cell & Environment. 2001 24(6). p.597
Microplastic Toxicity and Trophic Transfer in Freshwater Organisms: Ecotoxicological and Genotoxic Assessment in Spirodela polyrhiza (L.) Schleid. and Echinogammarus veneris (Heller, 1865) Treated with Polyethylene Microparticles
Iannilli Valentina,
Passatore Laura,
Carloni Serena,
Lecce Francesca,
Sciacca Giulia,
Zacchini Massimo, Pietrini Fabrizio
Water. 2023 15(5). p.921
An optimality‐based model of the dynamic feedbacks between natural vegetation and the water balance
Schymanski S. J.,
Sivapalan M.,
Roderick M. L.,
Hutley L. B., Beringer J.
Water Resources Research. 2009 45(1).
Comparative ecophysiology of leaf and canopy photosynthesis
TERASHIMA I., HIKOSAKA K.
Plant, Cell & Environment. 1995 18(10). p.1111
Leaf pigments and photosystems stoichiometry underpin photosynthetic efficiency of related C3, C–C4 and C4 grasses under shade
Sagun Julius Ver,
Chow Wah Soon, Ghannoum Oula
Physiologia Plantarum. 2022 174(6).
Optimization of leaf properties and plant phenotype through yield‐based genetic improvement of rice over a period of seventy years in the Yangtze River Basin of China
Zhu Guanglong,
Ren Zhen,
Liu Yuqian,
Lu Faguang,
Gu Lifeng,
Shi Yu,
Liu Jiawei,
Zhou Guisheng,
Nimir Nimir Eltyb Ahmed, Mohapatra Pravat Kumar
Food and Energy Security. 2020 9(3).
Leaf dark respiration as a function of canopy position in Nothofagus fusca trees grown at ambient and elevated CO2 partial pressures for 5 years
Griffin K. L.,
Tissue D. T.,
Turnbull M. H.,
Schuster W., Whitehead D.
Functional Ecology. 2001 15(4). p.497
Optimal leaf area indices in C3 and C4 mono‐ and dicotyledonous species at low and high nitrogen availability
Anten N. P. R.,
Schieving F.,
Medina E.,
Werger M. J. A., Schuffelen P.
Physiologia Plantarum. 1995 95(4). p.541
Legumes Modulate Allocation to Rhizobial Nitrogen Fixation in Response to Factorial Light and Nitrogen Manipulation
Friel Colleen A., Friesen Maren L.
Frontiers in Plant Science. 2019 10
Northern Provenances of Silver Fir Differ with Acclimation to Contrasting Light Regimes
Robakowski Piotr,
Łukowski Adrian,
Ye Zi-Piao,
Kryszewski Adam, Kowalkowski Wojciech
Forests. 2022 13(8). p.1164
Leaf nitrogen, photosynthesis, conductance and transpiration: scaling from leaves to canopies
LEUNING R.,
KELLIHER F. M.,
DE PURY D. G. G., SCHULZE E.‐D.
Plant, Cell & Environment. 1995 18(10). p.1183
Photosynthesis and resource distribution through plant canopies
NIINEMETS ÜLO
Plant, Cell & Environment. 2007 30(9). p.1052
Is stomatal conductance optimized over both time and space in plant crowns? A field test in grapevine (Vitis vinifera)
BUCKLEY THOMAS N.,
MARTORELL SEBASTIA,
DIAZ‐ESPEJO ANTONIO,
TOMÀS MAGDALENA, MEDRANO HIPÓLITO
Plant, Cell & Environment. 2014 37(12). p.2707
Resource Physiology of Conifers (1995)
Testing a model of CO2, water and energy exchange in Great Plains tallgrass prairie and wheat ecosystems
Hanan Niall P.,
Berry Joseph A.,
Verma Shashi B.,
Walter-Shea Elizabeth A.,
Suyker Andrew E.,
Burba George G., Denning A. Scott
Agricultural and Forest Meteorology. 2005 131(3-4). p.162
Effects of gibberellic acid on photosynthesis and endogenous hormones of Camellia oleifera Abel. in 1st and 6th leaves
Wen Yue,
Su Shu-chai,
Ma Lv-yi, Wang Xiang-nan
Journal of Forest Research. 2018 23(5). p.309
Encyclopedia of Hydrological Sciences (2005)
Modeling photosynthetic resource allocation connects physiology with evolutionary environments
Sundermann Esther M.,
Lercher Martin J., Heckmann David
Scientific Reports. 2021 11(1).
Needle dark respiration in relation to within‐crown position in Scots pine trees grown in long‐term elevation of CO2 concentration and temperature
Zha Tianshan,
Wang Kai‐Yun,
Ryyppö Aija, Kellomäki Seppo
New Phytologist. 2002 156(1). p.33
Plant Cell Death Processes (2004)
Integrating effects of leaf nitrogen, age, rank, and growth temperature into the photosynthesis-stomatal conductance model LEAFC3-N parameterised for barley (Hordeum vulgare L.)
Braune Henning,
Müller Johannes, Diepenbrock Wulf
Ecological Modelling. 2009 220(13-14). p.1599
Photosynthetic control of electron transport and the regulation of gene expression
Foyer Christine H.,
Neukermans Jenny,
Queval Guillaume,
Noctor Graham, Harbinson Jeremy
Journal of Experimental Botany. 2012 63(4). p.1637
The temperature response of photosynthesis in tobacco with reduced amounts of Rubisco
KUBIEN DAVID S., SAGE ROWAN F.
Plant, Cell & Environment. 2008 31(4). p.407
Plant Physiological Ecology (2019)
Photosynthetic adaptation and acclimation to exploit seasonal periods of direct irradiance in three temperate, deciduous‐forest herbs
ROTHSTEIN D. E., ZAK D. R.
Functional Ecology. 2001 15(6). p.722
The impact of light intensity on shade‐induced leaf senescence
BROUWER BASTIAAN,
ZIOLKOWSKA AGNIESZKA,
BAGARD MATTHIEU,
KEECH OLIVIER, GARDESTRÖM PER
Plant, Cell & Environment. 2012 35(6). p.1084
A leaf gas exchange model that accounts for intra‐canopy variability by considering leaf nitrogen content and local acclimation to radiation in grapevine (Vitis vinifera L.)
PRIETO JORGE A.,
LOUARN GAËTAN,
PEREZ PEÑA JORGE,
OJEDA HERNÁN,
SIMONNEAU THIERRY, LEBON ERIC
Plant, Cell & Environment. 2012 35(7). p.1313
Leaf photosynthetic light response: a mechanistic model for scaling photosynthesis to leaves and canopies
Kull O., Kruijt B.
Functional Ecology. 1998 12(5). p.767
Acclimation of plants to light gradients in leaf canopies: evidence for a possible role for cytokinins transported in the transpiration stream
Pons Thijs L.,
Jordi Wilco, Kuiper Daan
Journal of Experimental Botany. 2001 52(360). p.1563
