Relationships between Landscape Pattern, Wetland Characteristics, and Water Quality in Agricultural Catchments

Abstract: Water quality in streams is dependent on landscape metrics at catchment and wetland scales. A study was undertaken to evaluate the correlation between landscape metrics, namely patch density and area, shape, heterogeneity, aggregation, connectivity, land-use ratio, and water quality variables (salinity, nutrients, sediments, alkalinity, other potential pollutants and pH) in the agricultural areas of a semiarid Mediterranean region dominated by irrigated farmlands (NE Spain). The study also aims to develop wetl… Show more

“…Presumably, basins with large percentage of lacustrine and palustrine features support a stronger biological community. Moreno‐Mateos et al (2008) suggested that reducing landscape homogeneity (in that example, increasing wetlands scattered throughout a basin) would lead to improved water quality. In simple terms, lacustrine and palustrine features provide more diverse habitat for organisms, so basins with more lacustrine and palustrine features should exhibit a greater aquatic‐community response.…”

Relations between Retired Agricultural Land, Water Quality, and Aquatic‐Community Health, Minnesota River Basin

“…Presumably, basins with large percentage of lacustrine and palustrine features support a stronger biological community. Moreno‐Mateos et al (2008) suggested that reducing landscape homogeneity (in that example, increasing wetlands scattered throughout a basin) would lead to improved water quality. In simple terms, lacustrine and palustrine features provide more diverse habitat for organisms, so basins with more lacustrine and palustrine features should exhibit a greater aquatic‐community response.…”

Relations between Retired Agricultural Land, Water Quality, and Aquatic‐Community Health, Minnesota River Basin

“…A significant, if not the most important on a local scale is surface runoff [38]. Geological boreholes drilled on the upland show it to consist of thick varigrained sand deposits, intercalations of till, and gravels [39]. When considering absorptive basins as sites where rainwater might be stored, it was assumed that the deposits building them had good or average permeability.…”

Retentivity as an Indicator of the Capacity of Basins without an Outlet to Accumulate Water Surpluses

“…Kuusemets and Mander, 1999;Mitsch and Gosselink, 2000b;Zedler, 2003;Arheimer et al, 2004;White and Fennessy, 2005;Montreuil and Merot, 2006;Verhoeven et al, 2008). A second topic studied from a landscape perspective is the use of wetlands to improve the heterogeneity of landscapes degraded by agricultural uses as an indirect way to improve water quality and strengthen biodiversity (Comín et al, 2001;Benton et al, 2003;Moreno et al, 2007;Moreno-Mateos et al, 2008b). These studies demonstrated that the use of wetlands could reduce landscape homogeneity produced by long-standing, agricultural-intensive practices, increasing the quality of the agricultural runoff water and strengthening biodiversity.…”

“…3d and e; Mitsch and Gosselink, 2000b;Zedler, 2003;Moreno-Mateos et al, 2008b). A wider-ranging spatial distribution is a key to ensuring the establishment of stable bird populations (Whited et al, 2000), improving landscape heterogeneity (Comín et al, 2001;Benton et al, 2003) and linking hydrological and biotic connections (Verhoeven et al, 2008).…”

Integrating objectives and scales for planning and implementing wetland restoration and creation in agricultural landscapes