Photosynthetic Temperature Tolerance Threshold Determines How Isoprene Emission is Affected by Elevated CO2 Concentration at High Temperatures

ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature‐dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isopr...

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Published inPlant-environment interactions (Hoboken, N.J. : 2018) Vol. 6; no. 3; pp. e70053 - n/a
Main Authors Souza, Vinícius Fernandes, Gonçalves, José Francisco de Carvalho, Rasulov, Bakhtier, Talts, Eero, Morfopoulos, Catherine, Junior, Sérgio Duvoisin, Albuquerque, Patrícia Melchionna, Niinemets, Ülo
Format Journal Article
LanguageEnglish
Published Hoboken John Wiley & Sons, Inc 01.06.2025
Wiley
Subjects
BVOCs
Carbon
Carbon dioxide
Carbon dioxide concentration
Carbon dioxide fixation
dimethylallyl diphosphate
Dry season
Emissions
energy flux
Heat resistance
Heat tolerance
High temperature
Isoprene
isoprene synthase
Photosynthesis
Photosynthetic apparatus
Physiology
post‐illumination
Sensitivity
Species
Temperature
Temperature dependence
Temperature tolerance
Thermal resistance
Trees
tropical and temperate species
Amazon Basin
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Abstract ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature‐dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isoprene emissions over a 25°C–40°C temperature range at CO2 concentrations of 150, 400, and 1000 μmol mol−1 in two species with contrasting heat resistance. In the temperate species Populus tremula, rising temperatures above 30°C shifted electron flow from photosynthesis to isoprene synthesis, reducing CO2 inhibition due to enhanced isoprene synthase activity and decreased sensitivity of the DMADP pool. Conversely, the tropical species Inga edulis showed greater heat tolerance in its photosynthetic apparatus, maintaining electron flow for CO2 fixation, and exhibited a consistent CO2 suppression of isoprene emissions throughout the experiment. These findings indicate that species differences in relative sensitivity of light and dark reactions of photosynthesis play crucial roles in modulating isoprene emissions under combined high CO2 and temperature conditions.
AbstractList The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature-dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isoprene emissions over a 25°C-40°C temperature range at CO2 concentrations of 150, 400, and 1000 μmol mol-1 in two species with contrasting heat resistance. In the temperate species Populus tremula, rising temperatures above 30°C shifted electron flow from photosynthesis to isoprene synthesis, reducing CO2 inhibition due to enhanced isoprene synthase activity and decreased sensitivity of the DMADP pool. Conversely, the tropical species Inga edulis showed greater heat tolerance in its photosynthetic apparatus, maintaining electron flow for CO2 fixation, and exhibited a consistent CO2 suppression of isoprene emissions throughout the experiment. These findings indicate that species differences in relative sensitivity of light and dark reactions of photosynthesis play crucial roles in modulating isoprene emissions under combined high CO2 and temperature conditions.The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature-dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isoprene emissions over a 25°C-40°C temperature range at CO2 concentrations of 150, 400, and 1000 μmol mol-1 in two species with contrasting heat resistance. In the temperate species Populus tremula, rising temperatures above 30°C shifted electron flow from photosynthesis to isoprene synthesis, reducing CO2 inhibition due to enhanced isoprene synthase activity and decreased sensitivity of the DMADP pool. Conversely, the tropical species Inga edulis showed greater heat tolerance in its photosynthetic apparatus, maintaining electron flow for CO2 fixation, and exhibited a consistent CO2 suppression of isoprene emissions throughout the experiment. These findings indicate that species differences in relative sensitivity of light and dark reactions of photosynthesis play crucial roles in modulating isoprene emissions under combined high CO2 and temperature conditions.
ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature‐dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isoprene emissions over a 25°C–40°C temperature range at CO2 concentrations of 150, 400, and 1000 μmol mol−1 in two species with contrasting heat resistance. In the temperate species Populus tremula, rising temperatures above 30°C shifted electron flow from photosynthesis to isoprene synthesis, reducing CO2 inhibition due to enhanced isoprene synthase activity and decreased sensitivity of the DMADP pool. Conversely, the tropical species Inga edulis showed greater heat tolerance in its photosynthetic apparatus, maintaining electron flow for CO2 fixation, and exhibited a consistent CO2 suppression of isoprene emissions throughout the experiment. These findings indicate that species differences in relative sensitivity of light and dark reactions of photosynthesis play crucial roles in modulating isoprene emissions under combined high CO2 and temperature conditions.
ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent species differ in their temperature‐dependent release from high CO2 inhibition. We studied leaf photosynthetic characteristics and isoprene emissions over a 25°C–40°C temperature range at CO2 concentrations of 150, 400, and 1000 μmol mol−1 in two species with contrasting heat resistance. In the temperate species Populus tremula, rising temperatures above 30°C shifted electron flow from photosynthesis to isoprene synthesis, reducing CO2 inhibition due to enhanced isoprene synthase activity and decreased sensitivity of the DMADP pool. Conversely, the tropical species Inga edulis showed greater heat tolerance in its photosynthetic apparatus, maintaining electron flow for CO2 fixation, and exhibited a consistent CO2 suppression of isoprene emissions throughout the experiment. These findings indicate that species differences in relative sensitivity of light and dark reactions of photosynthesis play crucial roles in modulating isoprene emissions under combined high CO2 and temperature conditions.
Author Gonçalves, José Francisco de Carvalho
Talts, Eero
Morfopoulos, Catherine
Rasulov, Bakhtier
Junior, Sérgio Duvoisin
Albuquerque, Patrícia Melchionna
Niinemets, Ülo
Souza, Vinícius Fernandes
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Notes The author responsible for the distribution of materials integral to the findings presented in this article, following the policy described in the Instructions for Authors, is Vinícius Fernandes de Souza.
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Snippet ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what...
ABSTRACT The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what...
The suppression of isoprene emissions by high CO2 levels can be mitigated by increasing temperature; however, little is known about why and to what extent...
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SubjectTerms BVOCs
Carbon
Carbon dioxide
Carbon dioxide concentration
Carbon dioxide fixation
dimethylallyl diphosphate
Dry season
Emissions
energy flux
Heat resistance
Heat tolerance
High temperature
Isoprene
isoprene synthase
Photosynthesis
Photosynthetic apparatus
Physiology
post‐illumination
Sensitivity
Species
Temperature
Temperature dependence
Temperature tolerance
Thermal resistance
Trees
tropical and temperate species
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Title Photosynthetic Temperature Tolerance Threshold Determines How Isoprene Emission is Affected by Elevated CO2 Concentration at High Temperatures
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Volume 6
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