Effect of atmospheric water vapor on photosynthesis, transpiration and canopy conductance: A case study in corn

J. Ben-Asher; A. Garcia y Garcia; I. Flitcroft; G. Hoogenboom

doi:10.17221/346/2013-PSE

Plant, Soil and Environment (Dec 2013)

Effect of atmospheric water vapor on photosynthesis, transpiration and canopy conductance: A case study in corn

J. Ben-Asher,
A. Garcia y Garcia,
I. Flitcroft,
G. Hoogenboom

Affiliations

J. Ben-Asher: Agriecology Group, Katif R&D Center Ministry of Science, Sedot Negev Academic Campus, Israel
A. Garcia y Garcia: Department of Plant Sciences, University of Wyoming Research and Extension Center, Powell, USA
I. Flitcroft: Department of Biological and Agricultural Engineering, University of Georgia, Griffin, USA
G. Hoogenboom: AgWeatherNet, Washington State University, Prosser, USA

DOI: https://doi.org/10.17221/346/2013-PSE
Journal volume & issue: Vol. 59, no. 12
pp. 549 – 555

Abstract

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The effect of atmospheric water vapor (AV) on plants has mostly been neglected in climate impact studies. The objectives of this study were to determine the effect of AV on photosynthesis (Pn), dry matter production (DM), transpiration (Tr), leaf conductance (gl) and water use efficiency (WUE), in climate controlled chambers. The relative humidity (RH) was held near 30, 60, and 85%. DM and WUE increased with RH. δDM/δRH ~ 0.3 from 30% to 60% and ~2.2 from 60% to 85%, δWUE/δRH ~0.2 for all RH's. The improved WUE at a rate of 0.2 units for each percent of increased RH resulted from a synergy between larger gl and lower Tr at high RH. This conclusions carries a bleak message to dry regions.

Published in Plant, Soil and Environment

ISSN: 1214-1178 (Print); 1805-9368 (Online)
Publisher: Czech Academy of Agricultural Sciences
Country of publisher: Czechia
LCC subjects: Agriculture: Plant culture
Website: https://pse.agriculturejournals.cz/

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