Unveiling the increasingly altered patterns of wetland ecosystem functional diversity in the lower Delta of the Paraná River

• Published in: Land degradation & development Vol. 33; no. 18; pp. 3675 - 3689
• Main Authors: Aquino, Diego Sebastián, Gavier‐Pizarro, Gregorio I., Quintana, Rubén Darío
• Format: Journal Article
• Language: English
• Published: Chichester, UK John Wiley & Sons, Ltd 01.12.2022; Wiley Subscription Services, Inc
• Subjects: Aquatic ecosystems; Context; Decision making; Ecosystems; Environmental management; Geomorphology; Growing season; Heterogeneity; Hydrologic regime; Hydrology; Infrastructure; Land degradation; Land use; Overflow; Paraná River delta; Satellites; Strategic management; time‐series analysis; Water management; water management infrastructure; wetland degradation; wetland ecosystem functioning; Wetlands
• ISSN: 1085-3278; 1099-145X
• DOI: 10.1002/ldr.4415

Since climate, environmental and anthropic controls affect ecosystem functioning simultaneously, wetlands are permanently changing at different spatio–temporal scales. Thus, regionalizations based not only on structural, but also on functional features of ecosystems constitute a much‐needed baseline towards proper decision‐making and environmental management in the context of land degradation and water management infrastructure. Our aim was to identify and characterize the spatio‐temporal patterns of ecosystem functional diversity in a highly diverse and altered mosaic of wetland ecosystems and assess its environmental and anthropic controls. The characterization was based on satellite‐derived functional units (FUs), involving seven rasterized traits derived from complementary time‐series decomposition techniques applied to a 15‐year n….. v…… d… i….. (NDVI) product (2001–2015). The study area exhibited a vast functional heterogeneity, strongly related to differing anthropic and hydro‐geomorphological features. Vegetation dynamics were increasingly restricted by the precipitation regime in areas naturally or anthropically decoupled from the flood pulse, which also exhibited the lowest ecosystem functional richness. Depicted as morpho‐dynamically stable, areas still subject to recurring overflow events and higher water permanence exhibited sustained NDVI values during the growing season. Our study addresses a proper case of globally widespread land degradation processes occurring across several wetland ecosystems on Earth. Particularly, development of unrestricted water management infrastructure and decouplement from the hydrologic regime suggests an ongoing loss of ecosystem functional diversity and constrained carbon gain dynamics. In this context, the spatio‐temporal accuracy of our study constitutes a reliable and replicable foundation, suitable for improvement of environmental management in wetland ecosystems.