Transpiration Dynamics of Esparto Grass in a Semi-Arid Mediterranean Climate: Unraveling the Impacts of Pine Competition

Macrochloa tenacissima (M. tenacissima), or esparto, is a perennial tussock grass that coexists with Pinus halepensis (P. halepensis) in semi-arid Mediterranean woodlands. This research was carried out to explore diurnal transpiration at leaf level in esparto grass under different levels of pine–esp...

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Published inPlants (Basel) Vol. 13; no. 5
Main Authors Pérez-Anta, Iván, Rubio, Eva, López-Serrano, Francisco Ramón, Garcés, Diego, Andrés-Abellán, Manuela, Picazo, Marta, Chebbi, Wafa, Arquero, Rocío, García-Morote, Francisco Antonio
Format Journal Article
LanguageEnglish
Published MDPI AG 01.02.2024
Subjects
Aquatic resources
Climate
Droughts
Ecological research
Environmental aspects
Grasses
Physiological aspects
Pine
Plants
Reforestation
Scientific equipment and supplies industry
Soil moisture
Spain
Transpiration
United States
United States
Spain
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Summary:Macrochloa tenacissima (M. tenacissima), or esparto, is a perennial tussock grass that coexists with Pinus halepensis (P. halepensis) in semi-arid Mediterranean woodlands. This research was carried out to explore diurnal transpiration at leaf level in esparto grass under different levels of pine–esparto competition and in contrasting environmental soil water conditions. The measurement period spanned from the summer of 2020 to the spring of 2021. The relationship between transpiration and competition was conducted in open and closed P. halepensis stands, and the type of leaf (green, senescent) and the maturity of the esparto grass were taken into account. We observed a higher control of transpiration in green leaves, and the correlations between the transpiration and pine competition were noted exclusively in this type of leaf. Our results demonstrated a significant impact of pine competitors (closed stands) on the transpiration of esparto grass, particularly during seasons characterized by scenarios of high water demand: the summer drought period and the commencement of the growing and flowering period (spring). Furthermore, our findings revealed a greater response to transpiration in mature bushes compared to young ones under severe water stress, indicating a higher adaptation to drought by esparto as it ages. Although our results confirmed that PAR increased transpiration in all seasons and in both stands, which is attributable to the heliophilia of esparto grass, the site effects on transpiration could also be attributable to competition for water, especially during periods of drought. These results may have important implications for the dynamics and management of these semi-arid mixed woodlands, as well as the planning of reforestation programs aimed at restoring esparto grass formations.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13050661