His primary areas of investigation include Stomatal conductance, Botany, Carbon dioxide, Horticulture and Air pollution. His Stomatal conductance research incorporates themes from Fagus sylvatica and Vapour Pressure Deficit, Transpiration. In the subject of general Botany, his work in Photosynthesis and Co2 concentration is often linked to Carboxylation, Irradiance and Field, thereby combining diverse domains of study.
His Carbon dioxide study frequently draws connections between related disciplines such as Agronomy. His Horticulture research focuses on subjects like Growing season, which are linked to Canopy, Canopy conductance, Leaf area index and Carbon dioxide in Earth's atmosphere. His research integrates issues of Biomass and Irrigation in his study of Air pollution.
His primary scientific interests are in Stomatal conductance, Botany, Agronomy, Photosynthesis and Carbon dioxide. The concepts of his Stomatal conductance study are interwoven with issues in Vapour Pressure Deficit, Canopy conductance and Transpiration. Much of his study explores Botany relationship to Horticulture.
His Agronomy study combines topics from a wide range of disciplines, such as Tropospheric ozone, Climate change and Tree species. His work carried out in the field of Photosynthesis brings together such families of science as Rainforest, Acclimatization and Respiration. His Carbon dioxide research focuses on Canopy and how it connects with Leaf area index.
His scientific interests lie mostly in Photosynthesis, Agronomy, Stomatal conductance, Acclimatization and Humanities. His research in Photosynthesis intersects with topics in Tree species and Respiration. His Agronomy research incorporates elements of Rainforest and Interspecific competition.
Johan Uddling combines Stomatal conductance and Intercellular space in his research. Acclimatization is the subject of his research, which falls under Botany. His work deals with themes such as Montane ecology, Chloroplast, RuBisCO and Horticulture, which intersect with Photosynthetic capacity.
Stomatal conductance, Photosynthesis, Air pollution, Radiative forcing and Mass concentration are his primary areas of study. His studies deal with areas such as Photosynthetic capacity, Chloroplast and Horticulture as well as Stomatal conductance. His Photosynthesis study combines topics in areas such as Pollutant, Vegetation, Adaptation, Acclimatization and Tropical rainforest.
The various areas that Johan Uddling examines in his Air pollution study include Tropospheric ozone and Air quality index.
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Evaluating the relationship between leaf chlorophyll concentration and SPAD-502 chlorophyll meter readings
J. Uddling;J. Gelang-Alfredsson;K. Piikki;H. Pleijel.
Photosynthesis Research (2007)
Optimal stomatal behaviour around the world
Nature Climate Change (2015)
Assessing foliar chlorophyll contents with the SPAD-502 chlorophyll meter: a calibration test with thirteen tree species of tropical rainforest in French Guiana
Annals of Forest Science (2010)
New critical levels for ozone effects on young trees based on AOT40 and simulated cumulative leaf uptake of ozone
P.E. Karlsson;J. Uddling;S. Braun;M. Broadmeadow.
Atmospheric Environment (2004)
Risk assessments for forest trees: the performance of the ozone flux versus the AOT concepts.
P.E. Karlsson;S. Braun;M. Broadmeadow;S. Elvira.
Environmental Pollution (2007)
Acclimation and adaptation components of the temperature dependence of plant photosynthesis at the global scale
New Phytologist (2019)
Transpiration of urban trees and its cooling effect in a high latitude city.
Janina Konarska;Johan Uddling;Björn Holmer;Martina Lutz.
International Journal of Biometeorology (2016)
Yield vs. quality trade-offs for wheat in response to carbon dioxide and ozone.
Håkan Pleijel;Johan Uddling.
Global Change Biology (2011)
A test of the ‘one‐point method’ for estimating maximum carboxylation capacity from field‐measured, light‐saturated photosynthesis
Martin G. De Kauwe;Yan-Shih Lin;Ian J. Wright;Belinda E. Medlyn.
New Phytologist (2016)
Constraints to nitrogen acquisition of terrestrial plants under elevated CO2
Zhaozhong Feng;Zhaozhong Feng;Tobias Rütting;Håkan Pleijel;Göran Wallin.
Global Change Biology (2015)
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