Your search keyword '"Berdugo, Miguel"' showing total 4 results

1. Phylogenetic, functional, and taxonomic richness have both positive and negative effects on ecosystem multifunctionality

Author

Le Bagousse-Pinguet, Yoann, Soliveres, Santiago, Gross, Nicolas, Torices, Rubén, Berdugo, Miguel, and Maestre, Fernando T.

Published

2019

2. Self-organization as a mechanism of resilience in dryland ecosystems.

Author

Kéfi, Sonia, Génin, Alexandre, Garcia-Mayor, Angeles, Guirado, Emilio, Cabral, Juliano S., Berdugo, Miguel, Guerber, Josquin, Solé, Ricard, and Maestre, Fernando T.

Subjects

ECOLOGICAL resilience, VEGETATION patterns, ARID regions, REMOTE sensing, MICROBIAL communities

Abstract

Self-organized spatial patterns are a common feature of complex systems, ranging from microbial communities to mussel beds and drylands. While the theoretical implications of these patterns for ecosystem-level processes, such as functioning and resilience, have been extensively studied, empirical evidence remains scarce. To address this gap, we analyzed global drylands along an aridity gradient using remote sensing, field data, and modeling. We found that the spatial structure of the vegetation strengthens as aridity increases, which is associated with the maintenance of a high level of soil multifunctionality, even as aridity levels rise up to a certain threshold. The combination of these results with those of two individual-based models indicate that self-organized vegetation patterns not only form in response to stressful environmental conditions but also provide drylands with the ability to adapt to changing conditions while maintaining their functioning, an adaptive capacity which is lost in degraded ecosystems. Self-organization thereby plays a vital role in enhancing the resilience of drylands. Overall, our findings contribute to a deeper understanding of the relationship between spatial vegetation patterns and dryland resilience. They also represent a significant step forward in the development of indicators for ecosystem resilience, which are critical tools for managing and preserving these valuable ecosystems in a warmer and more arid world [ABSTRACT FROM AUTHOR]

Published

2024

3. The global biogeography and environmental drivers of fairy circles.

Author

Guirado, Emilio, Delgado-Baquerizo, Manuel, Benito, Blas M., Luis Molina-Pardo, José, Berdugo, Miguel, Martínez-Valderrama, Jaime, and Maestre, Fernando T.

Subjects

VEGETATION patterns, BIOGEOGRAPHY, ARID regions, HIGH temperatures, FAIRIES

Abstract

Fairy circles (FCs) are regular vegetation patterns found in drylands of Namibia and Western Australia. It is virtually unknown whether they are also present in other regions of the world and which environmental factors determine their distribution. We conducted a global systematic survey and found FC-like vegetation patterns in 263 sites from 15 countries and three continents, including the Sahel, Madagascar, and Middle-West Asia. FC-like vegetation patterns are found in environments characterized by a unique combination of soil (including low nutrient levels and high sand content) and climatic (arid regions with high temperatures and high precipitation seasonality) conditions. In addition to these factors, the presence of specific biological elements (termite nests) in certain regions also plays a role in the presence of these patterns. Furthermore, areas with FC-like vegetation patterns also showed more stable temporal productivity patterns than those of surrounding areas. Our study presents a global atlas of FCs and provides unique insights into the ecology and biogeography of these fascinating vegetation patterns. [ABSTRACT FROM AUTHOR]

Published

2023

4. Prevalence and drivers of abrupt vegetation shifts in global drylands.

Author

Berdugo, Miguel, Gaitán, Juan J., Delgado-Baquerizo, Manuel, Crowther, Thomas W., and Dakos, Vasilis

Subjects

*ARID regions, *NORMALIZED difference vegetation index, *CARBON in soils, *PLANT productivity

Abstract

The constant provision of plant productivity is integral to supporting the liability of ecosystems and human wellbeing in global drylands. Drylands are paradigmatic examples of systems prone to experiencing abrupt changes in their functioning. Indeed, space-fortime substitution approaches suggest that abrupt changes in plant productivity are widespread, but this evidence is less clear using observational time series or experimental data at a large scale. Studying the prevalence and, most importantly, the unknown drivers of abrupt (rather than gradual) dynamical patterns in drylands may help to unveil hotspots of current and future dynamical instabilities in drylands. Using a 20-y global satellite-derived temporal assessment of dryland Normalized Difference Vegetation Index (NDVI), we show that 50% of all dryland ecosystems exhibiting gains or losses of NDVI are characterized by abrupt positive/negative temporal dynamics. We further show that abrupt changes are more common among negative than positive NDVI trends and can be found in global regions suffering recent droughts, particularly around critical aridity thresholds. Positive abrupt dynamics are found most in ecosystems with low seasonal variability or high aridity. Our work unveils the high importance of climate variability on triggering abrupt shifts in vegetation and it provides missing evidence of increasing abruptness in systems intensively managed by humans, with low soil organic carbon contents, or around specific aridity thresholds. These results highlight that abrupt changes in dryland dynamics are very common, especially for productivity losses, pinpoint global hotspots of dryland vulnerability, and identify drivers that could be targeted for effective dryland management. [ABSTRACT FROM AUTHOR]

Published

2022