The response of plants to elevated CO2
- 30 April 1984
- journal article
- research article
- Published by Springer Nature in Oecologia
- Vol. 62 (2) , 196-198
- https://doi.org/10.1007/bf00379013
Abstract
Four coexisting annual plant species were grown in competition at three levels of CO2 (300, 600, and 1,200 ppm) and two levels of soil moisture (moist and dry). Plant height was higher at high CO2 concentrations for the three C3 species but not for the C4 species (Amaranthus retroflexus). Total community biomass increased with increasing CO2 at both soil moisture levels. The contribution of each species to total community biomass was influenced by CO2 concentration. The effects were especially pronounced for Polygonum pensylvanicum which contributed more to community production as CO2 and soil moisture increased. Amaranthus behaved in exactly the reverse way; it did best under ambient CO2 and dry soil moisture conditions. The results suggest that changes in competitive interactions and community structure will occur with the anticipated rise in global CO2 concentration.This publication has 14 references indexed in Scilit:
- Effects of High Atmospheric CO2 and Sink Size on Rates of Photosynthesis of a Soybean CultivarPlant Physiology, 1981
- Effects of CO2 concentration and irradiance on the stomatal behaviour of maize, barley and sunflower plants in the fieldPlant, Cell & Environment, 1980
- Growth and Yield of Wheat under CO2 Enrichment and Water Stress1Crop Science, 1980
- Organization of an Assemblage of Early Successional Species on a Soil Moisture GradientEcology, 1978
- Effect of Carbon Dioxide Concentration on Growth and Dry Matter Production of Crop PlantsJapanese Journal of Crop Science, 1978
- Studies on the carbon dioxide enrichment for plant growth, VII. Changes in dry matter production and photosynthetic rate of cucumber during carbon dioxide enrichmentAgricultural Meteorology, 1977
- Stomatal ActionAnnual Review of Plant Physiology, 1975
- Studies on the Mechanism of Differences in Photosynthesis among Species : IV. The differential response in dry matter production between C3 and C4 species to atmospheric carbon dioxide enrichment.Japanese Journal of Crop Science, 1973
- Differential Stomatal Response Between C3 and C4 Species to Atmospheric CO2 Concentration and Light1Crop Science, 1972
- Carbon dioxide enrichment of greenhouse atmospheres for food crop productionEconomic Botany, 1964