_version_ 1867170097132470272
author Birami, Benjamin
Gattmann, Marielle
Gast, Andreas
Ruehr, Nadine K
author_facet Birami, Benjamin
Gattmann, Marielle
Gast, Andreas
Ruehr, Nadine K
collection Datos científicos de ciencias marinas y ambientales
contents The data describes plant gas exchange dynamics (CO2, H2O) including stomatal conductance and water use efficiency of Pinus halepensis seedlings exposed to drought and increasing temperatures under either ambient (c. 400 ppm) or elevated (c. 900 ppm) atmospheric [CO2]. Measured in a scientific glasshouse facility at KIT IMK-IFU Garmisch-Partenkirchen, Germany, via seperately controlled growth chambers setup.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_910582
institution PANGAEA
language en
publishDate 2020
publisher PANGAEA
record_format pangaea
spellingShingle Gas exchange dynamics of Aleppo Pine seedlings in response to elevated [CO2], drought and increasing temperatures
Birami, Benjamin
Gattmann, Marielle
Gast, Andreas
Ruehr, Nadine K
Aleppo_Pine_seedlings; Apparent water use efficiency; Biomass, dry mass; Chamber number; DATE/TIME; Day of the year; drought; elevated [CO2]; Garmisch-Partenkirchen, Bavaria, Southern Germany; gas exchange; high temperatures; Humidity, relative; Laboratory experiment; Leaf area; Leaf internal carbon dioxide concentration; Leaf internal carbon dioxide concentration/ambient carbon dioxide ratio; Photosynthetic flux; Photosynthetic flux, per biomass; Photosynthetic flux, per leaf area; Pinus halepensis; Radiation, photosynthetically active; Repeat; Soil water content; Steps; Stomatal conductance to water; Stomatal conductance to water per biomass; Stomatal conductance to water per leaf area; Temperature, air; Temperature, soil; Time of day; Transpiration, flux; Transpiration, flux per biomass; Transpiration, flux per leaf area; Treatment; Vapour pressure deficit
The data describes plant gas exchange dynamics (CO2, H2O) including stomatal conductance and water use efficiency of Pinus halepensis seedlings exposed to drought and increasing temperatures under either ambient (c. 400 ppm) or elevated (c. 900 ppm) atmospheric [CO2]. Measured in a scientific glasshouse facility at KIT IMK-IFU Garmisch-Partenkirchen, Germany, via seperately controlled growth chambers setup.
title Gas exchange dynamics of Aleppo Pine seedlings in response to elevated [CO2], drought and increasing temperatures
topic Aleppo_Pine_seedlings; Apparent water use efficiency; Biomass, dry mass; Chamber number; DATE/TIME; Day of the year; drought; elevated [CO2]; Garmisch-Partenkirchen, Bavaria, Southern Germany; gas exchange; high temperatures; Humidity, relative; Laboratory experiment; Leaf area; Leaf internal carbon dioxide concentration; Leaf internal carbon dioxide concentration/ambient carbon dioxide ratio; Photosynthetic flux; Photosynthetic flux, per biomass; Photosynthetic flux, per leaf area; Pinus halepensis; Radiation, photosynthetically active; Repeat; Soil water content; Steps; Stomatal conductance to water; Stomatal conductance to water per biomass; Stomatal conductance to water per leaf area; Temperature, air; Temperature, soil; Time of day; Transpiration, flux; Transpiration, flux per biomass; Transpiration, flux per leaf area; Treatment; Vapour pressure deficit
url https://doi.org/10.1594/PANGAEA.910582