Responses of Mediterranean rangelands to increased summer droughts

Cardozo Cabanelas Geronimo A., Voltaire Florence, Barotin Charlène, Barkaoui Karim. 2022. Responses of Mediterranean rangelands to increased summer droughts. In : Joint Seminar of the FAO CIHEAM Networks on Pasture and Forage Crops and on Sheep and Goat Nutrition: Book of abstracts. FAO, CIHEAM. Catania : FAO-CIHEAM, Résumé, p. 84. Joint Seminar of the FAO CIHEAM Networks on Pasture and Forage Crops and on Sheep and Goat Nutrition (FAO-CIHEAM 2022), Catania, Italie, 27 Septembre 2022/29 Septembre 2022.

Résumé : Introduction - Under climate change, temperatures and drought are expected to increase around the Mediterranean basin (IPCC, 2019) with an extended period of water stress in summer (Giannakopoulos et al., 2009). For Mediterranean rangelands, summer drought is a chronic stress factor that depends on soil types and water retention capacities. Water deficit was shown to be buffered by "adjusted" biomass production across a range of rangelands in contrasting soils (Barkaoui et al., 2017). However, we question to which extent increased drought can still be buffered to ensure the long term resilience of this rangeland. We hypothesise that successive increased summer droughts could alter the community towards a new state with a loss of ecosystem functions especially for communities on shallow soils with low water reserve. Material and methods - The study was carried out on dry calcareous rangelands of southem France, at the INRAe-La Fage experimental (43°55'N, 3°05'E, 790 m asl). The vegetation is dominated by perennial grasses with different species communities according to soil depth and texture. Four sites with sub-areas of sandy shallow soil (18±5 cm) and deep silty soil (85±17 cm) were identified. Increased summer drought treatment was applied in comparison with ambient summer drought treatment. Since June 2016 and for 5 years, we simulated a drier summer by setting a temporary rainout shelter for - 75 days from mid-June to end of August to create a warmer and drier micro-climate. Climatic parameters and soil moisture were monitored. Spring and autumn Aboveground Net Primary Production (ANPP) were measured in June and December each year, respectively. Vegetation cover (% bare soil) and the community structure(% monocots) were regularly assessed. Results and discussion - Rainout shelters intercepted between 105 to 25 mm (44 to 99 %) of rainfall water, increased average temperature of O. 7 to l.52°C and reduced relative humidity of 0.8 to 2.3 %, for shallow and deeper soil respectively, creating warmer and drier conditions (among the driest summers in 35 years). Soil moisture was reduced by -15 % in the summer for both types of soil. Legacy effect of repeated drought was observed in soil moisture in autumn for deep soils ail years, but all soils were refilled entirely every winter. No difference was detected between treatments for cumulative ANPP across the first period (2016-2018, Years 1-2) and neither during the second period (2019-2021, Years 4-5) for deep soil communities, but cumulative ANPP was reduced in the second period for shallow soils communities (Fig. 1.A). Bare soil increased under drier condition for both periods and soils, mostly in shallow soils where it reached very critical levels, higher than 50% (Fig. l.B). The proportion of monocots (mainly grasses) was stable across the first period in all communities (Fig. 1.C). Conversely, the proportion of monocots increased in deep soil and decreased in shallow soil communities towards the end of the experiment under drier summers (Fig. l .C). Conclusion - ANPP of herbaceous communities subjected to five successive increased summer droughts, was buffered more for rangelands on deep than on shallow soils. Drier summers contributed to a degradation of communities in shallow soils, with increased bare soil and significant species turnover.

Mots-clés libres : Drought, Mediterranean rangelands, Biomass productivity, Digestibility, Plant communities

Auteurs et affiliations

• Cardozo Cabanelas Geronimo A., Université de Montpellier (FRA)
• Voltaire Florence, Université de Montpellier (FRA)
• Barotin Charlène, INRAE (FRA)
• Barkaoui Karim, CIRAD-PERSYST-UMR ABSys (FRA) ORCID: 0000-0002-5787-3748

Source : Cirad-Agritrop (https://agritrop.cirad.fr/602737/)

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