Nocturnal Warming Increases Photosynthesis at Elevated CO Partial Pressure in Populus Deltoides

Overview

Journal New Phytol

Specialty Biology

Date 2021 Apr 20

PMID 33873713

Citations 8

Authors

Matthew H Turnbull

David T Tissue

Ramesh Murthy

Xianzhong Wang

Ashley D Sparrow

Kevin L Griffin

Affiliations

Soon will be listed here.

Abstract

• We measured night-time respiration and daytime photosynthesis of leaves in canopies of 4 m tall cottonwood (Populus deltoides) trees to investigate the link between leaf respiration and photosynthetic capacity. • Trees were grown at three CO partial pressures [p(CO ) ] (42, 80, 120 Pa) and experimentally exposed to differing nocturnal temperatures (15, 20 or 25°C), but constant daytime temperatures (30-32°C), in a short-term whole-ecosystem environmental manipulation. • Rates of night-time leaf dark respiration (R ) increased significantly at all growth CO partial pressures when nocturnal temperatures were increased from 15 to 25°C. Predawn leaf nonstructural carbohydrate (soluble sugars and starch) content was significantly lower at the higher night temperatures. Photosynthetic capacity (A ) during the day increased significantly between 15 and 25°C at 42 and 80 Pa, but not at 120 Pa. • These findings indicate that the previously determined relationships between elevated night-time temperature, dark respiration and increased photosynthetic capacity may also hold at elevated p(CO ) . This response may have a significant influence on plant and ecosystem carbon exchange under global change scenarios.

Citing Articles

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Respiratory and Photosynthetic Responses of Antarctic Vascular Plants Are Differentially Affected by CO Enrichment and Nocturnal Warming.

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The Contribution of Carbon and Water in Modulating Wood Formation in Black Spruce Saplings.

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References

Alward , Detling , Milchunas . Grassland vegetation changes and nocturnal global warming . Science. 1999; 283(5399):229-31. DOI: 10.1126/science.283.5399.229. View

Amthor J . Direct effect of elevated CO(2) on nocturnal in situ leaf respiration in nine temperate deciduous tree species is small. Tree Physiol. 2003; 20(2):139-144. DOI: 10.1093/treephys/20.2.139. View

Bolstad , MITCHELL , Vose . Foliar temperature-respiration response functions for broad-leaved tree species in the southern Appalachians. Tree Physiol. 1999; 19(13):871-878. DOI: 10.1093/treephys/19.13.871. View

Gonzalez-Meler M, Siedow J . Direct inhibition of mitochondrial respiratory enzymes by elevated CO(2): does it matter at the tissue or whole-plant level?. Tree Physiol. 2003; 19(4_5):253-259. DOI: 10.1093/treephys/19.4-5.253. View

Gunderson C, Norby R, Wullschleger S . Acclimation of photosynthesis and respiration to simulated climatic warming in northern and southern populations of Acer saccharum: laboratory and field evidence. Tree Physiol. 2003; 20(2):87-96. DOI: 10.1093/treephys/20.2.87. View