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Effects of patch-burn grazing and rotational grazing on grassland bird abundance, species richness, and diversity in native grassland pastures of the Midsouth USA.

Authors :
Lituma, Christopher M.
Buckley, Byron R.
Keyser, Patrick D.
Holcomb, Elizabeth
Smith, Ray
Morgan, John
Applegate, Roger D.
Source :
Agriculture, Ecosystems & Environment. Feb2022, Vol. 324, pN.PAG-N.PAG. 1p.
Publication Year :
2022

Abstract

Declines in native warm season grasslands have been linked to grassland bird population decline due to habitat loss including conversion to non-native grasses. Rotational grazing (ROT) and patch-burn grazing (PBG) are two possible tools to restore native warm-season grasses (NWSG) on working-lands in the Mid-South USA and thus aid in the recovery of grassland bird populations. This project compares ROT, PBG, and before treatment implementation to assess their effects on grassland-associated bird species. At three research sites between KY and TN, 14–10 ha NWSG pastures were established and randomly assigned 7 pastures each to ROT and PBG treatment and monitored avian relative abundance during the breeding season from 2014 to 2017. Avian call count data and vegetation characteristics were collected in 2014 and treated as a before treatment year. Following 2014, ROT and PBG treatments were implemented across each respective research site. We used the open N-mixture model framework to estimate avian relative abundance related to year, treatments, research site, and landscape and within-field variables. Avian species richness and diversity were calculated for each treatment, research site, and year. Landscape variables, within-field variables, and research sites exerted more influence on relative abundance than ROT or PBG. Grassland-associated bird species relative abundance and species richness/diversity were affected by habitat disturbances (both ROT and PBG) but varied by species and site. Field sparrows [ Spizella pusilla ] had the highest increase in relative abundance (9.68 ± 1.24 birds/point count location or 1.77 ha) while northern cardinals [ Cardinalis cardinalis ] exhibited a significant decrease in relative abundance (3.44 ± 1.54 birds/point count location) following treatment implementation on specific research sites. Species diversity and richness did not differ between ROT and PBG treatments. However, a site and year difference were observed for both estimates. Using ROT and/or PBG to create habitat disturbances can alter within-field variables (i.e., vegetation height) which, taken into context with landscape variables, could impact grassland bird populations and diversity depending on grassland bird species habitat requirements. Our research provided the baseline information for ROT and PBG impacts on grassland birds in the east/southeastern USA. However, we believe future research should focus on breeding and annual fecundity to better understand how populations will change over time and how working lands conservation might aid this conservation effort without a reduction in livestock productivity. • Grassland bird populations decline has been linked to habitat loss. • Utilizing private working-lands management could increase potential avian habitat. • Rotational grazing and patch-burn grazing create vegetation structural diversity. • Increased vegetation structural diversity can benefit avian relative abundance. • Habitat disturbance/landscape can impact grassland bird richness and diversity. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01678809
Volume :
324
Database :
Academic Search Index
Journal :
Agriculture, Ecosystems & Environment
Publication Type :
Academic Journal
Accession number :
153493618
Full Text :
https://doi.org/10.1016/j.agee.2021.107710