1199103_Bennett,A_2022.pdf (1.76 MB)
Download fileRestoration promotes recovery of woodland birds in agricultural environments: A comparison of ‘revegetation’ and ‘remnant’ landscapes
journal contribution
posted on 2022-05-19, 01:30 authored by Andrew BennettAndrew Bennett, Greg HollandGreg Holland, Angie HaslemAngie Haslem, A Stewart, James RadfordJames Radford, RH ClarkeEcological restoration in rural environments is a global challenge for the 21st century. Restoration measures—such as agri-environment activities, woodlots, natural regeneration and conservation plantings—collectively alter landscape structure with the aim of restoring conservation values that are characteristic of natural ecosystems. We tested the landscape-scale benefits of restoration for woodland birds, species of conservation concern in southern Australia, by assessing the richness and composition of avian communities in rural landscapes along a gradient in habitat restoration, benchmarked against landscapes with comparable extent of native vegetation. We selected 43 landscapes (each 8 km2) in Victoria, Australia, representing: (a) a trajectory of decline in the extent of remnant native wooded vegetation (‘remnant’ landscapes), (b) a trajectory of gain in planted vegetation (‘revegetation’ landscapes) and (c) a similar gradient comprising a mix of remnants and planted vegetation (‘mixed’ landscapes). In each landscape, repeat surveys of birds were undertaken at 12 sites, stratified in relation to land cover. Species richness of all terrestrial and woodland birds showed similar positive responses to total wooded cover in each landscape type, but woodland birds had reduced richness in ‘revegetation’ relative to ‘remnant’ and ‘mixed’ landscapes. Across all landscapes, key factors influencing richness were the extent of wooded cover and proportion comprised of plantings, scattered trees in farmland and mean annual rainfall. The composition of woodland bird assemblages differed between ‘remnant’ and ‘revegetation’ landscapes with predictable differences associated with foraging traits. Synthesis and applications. Restoration plantings stimulate recolonisation of otherwise-depleted landscapes, effectively reversing a decline in woodland birds. Key insights include: (a) benchmarking ‘revegetation’ against ‘remnant’ landscapes provides a valuable means to quantify restoration outcomes at the landscape scale; (b) time-lags in vegetation maturation contribute to a trajectory of recovery that differs from a trajectory of decline, in both richness and composition of the avifauna; (c) scattered trees have a critical role for avifaunal conservation in farm landscapes; (d) restoration plantings are most effective in ‘mixed’ landscapes, where complementary resources from remnant and planted vegetation are juxtaposed; and (e) restoration plantings on individual farms contribute to landscape-scale biodiversity gains while also having socio-ecological and production benefits.
Funding
Glenelg-Hopkins Catchment Management Authority; Open access publishing facilitated by La Trobe University, as part of the Wiley -La Trobe University agreement via the Council of Australian University Librarians
History
Publication Date
2022-01-01Journal
Journal of Applied EcologyVolume
59Issue
5Pagination
13p. (p. 1334-1346)Publisher
WileyISSN
0021-8901Rights Statement
© 2022 The Authors. Journal of Applied Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.Publisher DOI
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Keywords
Science & TechnologyLife Sciences & BiomedicineBiodiversity ConservationEcologyBiodiversity & ConservationEnvironmental Sciences & EcologyAustraliafarmland birdslandscape planningplantingsreforestationrestoration trajectoryrevegetationwoodlotHABITAT FRAGMENTATIONCONSERVATIONBIODIVERSITYTREESAUSTRALIASCHEMESTIMEEcological Applications not elsewhere classifiedEnvironmental Science and Management not elsewhere classifiedEcology