Enhancing the positive effects of ecological water conservancy engineering on desert riparian forest growth in an arid basin

Riparian forests have positive effects on water quality and biodiversity. However, most studies have only tested the effects of distinct vegetation types or streams with and without forests, despite the fact that riparian forests differ in degrees of complexity. The aim of the present study was to test whether riparian forest complexity affected the composition and abundance of the Ephemeroptera, Plecoptera and Trichoptera (EPT) taxa across a small environmental gradient. We also measured whether EPT genera or feeding groups responded to changes in riparian forest complexity. The study was conducted in two protection areas (i.e. Lagoa do Peri Municipal Park, PERI; and the Permanent Protection Area of Ratones, RAT) of Santa Catarina Island, Brazil. Primary production increased in streams with lower canopy percentage, and EPT assemblages differed among streams with different riparian forest complexity. In RAT, the water quality and forest variables affected EPT composition; however, in PERI, only water quality variables were important. Indicator species analysis based on genera suggested Kempnyia (Plecoptera) and Zelusia (Ephemeroptera) to be indicative of streams with greater forest complexity, whereas Farrodes (Ephemeroptera) was significant in streams of intermediate riparian forest complexity; however, no one functional group dominated. The results of the present study show that small changes in riparian forest complexity influence the composition of EPT insects in subtropical streams.

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Riparian forest restoration as sources of biodiversity and ecosystem functions in anthropogenic landscapes

10.1101/2021.09.08.459375 ◽

2021 ◽

Author(s):

Yasmine Antonini ◽

Marina V. Beirão ◽

Fernanda V. Costa ◽

Cristiano S. Azevedo ◽

Maria M. Wojakowski ◽

...

Keyword(s):

Forest Restoration ◽

Riparian Forest ◽

Riparian Forests ◽

Ecosystem Functions ◽

Future Research ◽

List Type ◽

Anthropogenic Landscapes ◽

Positive Effects ◽

Terrestrial Habitats ◽

Ecosystem Multifunctionality

AbstractRestoration of tropical riparian forests is challenging, since these ecosystems are the most diverse, dynamic, and complex physical and biological terrestrial habitats. This study tested whether biodiversity can predict ecosystem functions in a human-impacted tropical riparian forest.We explored the effects of several biodiversity components (taxonomic or functional groups) on different ecosystem functions associated with restored riparian forestsOverall, 49% of the biodiversity components showed positive effects on ecosystem functions, each component to a different degree. In general, our results showed that both taxonomic and functional biodiversity had strong effects on ecosystem functions indicating that floral and faunal biodiversity enhanced the multifunctionality of these restored riparian tropical forests.These findings indicate that in restored riparian forests, recovery of biodiversity is followed by improvement in important ecosystem functions that are the basis for successful restoration. Future research and policy for restoration programs must focus on restoring elementary faunal and floral components of biodiversity in order to promote ecosystem multifunctionality.

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