Combined effect of elevated CO2 level and temperature on germination and initial growth of Montrichardia arborescens (L.) Schott (Araceae): a microcosm experiment

Citation

Lopes A, Ferreira AB, Pantoja PO, Parolin P & Piedade MTF (2018) Combined effect of elevated CO2 level and temperature on germination and initial growth of Montrichardia arborescens (L.) Schott (Araceae): a microcosm experiment. Hydrobiologia, 814 (1), pp. 19-30. https://doi.org/10.1007/s10750-015-2598-1

Abstract
IPCC predictions indicate an increase in temperatures by 1.5–7°C in some Amazonian regions during the twenty-first century. These changes could disrupt the present distribution patterns of organisms, including wetland plant species. In this work, we determined in microcosms the effects of scenarios combining elevated temperature and atmospheric CO2concentration on the germination and initial growth of the arborescent Amazonian aquatic macrophyteMontrichardia arborescens. Seeds were germinated, and seedlings produced were monitored over a 5-month period in four microcosms: Control: ambient temperature and CO2level; Mild: Control+1.5°C and+200ppm CO2; intermediate: control+2.5°C and+400ppm CO2; Extreme: Control+4.5°C and+850ppm of CO2. Rapid light response curves and Fv/Fm values taken in seedlings showed a decrease in electron transportation rate with CO2and temperature elevation. Mild and Intermediate treatments stimulated biomass production; Extreme treatment and Control produced similar results. The severe climatic changes expected in the future may negatively influence carbon accumulation inM. arborescens. Since aquatic macrophytes in Amazonian wetlands and wetlands worldwide are key plant species, further studies are needed to predict their fate in a global change perspective.

Keywords
Amazonian floodplains; nutrient poor black-water; Igapo; aquatic macrophytes; physiology; climate change;

Journal
Hydrobiologia: Volume 814, Issue 1