Catalogue Search | MBRL
Search Results Heading
Explore the vast range of titles available.
MBRLSearchResults
-
DisciplineDiscipline
-
Is Peer ReviewedIs Peer Reviewed
-
Item TypeItem Type
-
SubjectSubject
-
YearFrom:-To:
-
More FiltersMore FiltersSourceLanguage
Done
Filters
Reset
4,162
result(s) for
"grassland birds"
Sort by:
Spatial heterogeneity increases diversity and stability in grassland bird communities
by
Fuhlendorf, Samuel D.
,
Elmore, R. Dwayne
,
Hamilton, Robert G.
in
Ammodramus henslowii
,
Animals
,
Applied ecology
2015
Grasslands are inherently dynamic in space and time, evolving with frequent disturbance from fire and herbivores. As a consequence of human actions, many remaining grasslands have become homogenous, which has led to reduced ecosystem function, biodiversity loss, and decreased ecological services. Previous research has shown that restoring inherent heterogeneity to grasslands can increase avian diversity, but the amount of heterogeneity (i.e., number of patches or fire return interval) and the impact on avian community stability have yet to be investigated. We used a unique landscape-level design to examine avian response to interacting fire and grazing across multiple experimental landscapes that represented a gradient of fire- and grazing-dependent heterogeneity. We used seven landscapes (430-980 ha;
x̄
= 627 ha) with varying levels of patchiness ranging from annually burned (one single patch) with spring-only fires to a four-year fire return interval with spring and summer fires (eight patches). This design created a range of heterogeneity as a result of pyric herbivory, an ecological process in which fire and grazing are allowed to interact in space and time. We found that greater heterogeneity across experimental landscapes resulted in increased avian diversity and stability over time. An index of bird community change, quantified as the sum of the range of detrended correspondence analysis axis site scores, was nearly four times greater in the most homogenous experimental landscape when compared to the most heterogeneous experimental landscape. Species responses were consistently positively associated with increased heterogeneity at the landscape scale, and within-experimental-landscape responses were most often related to litter cover, litter accumulation, and vegetation height. We conclude that increased fire- and grazing-dependent heterogeneity can result in high variability in the bird community at finer, transect scales, but increased diversity and stability at broad landscape scales. We recommend that future management efforts in rangelands focus on restored disturbance processes to increase heterogeneity and improve grassland bird conservation.
Journal Article
Landscape-scale conservation mitigates the biodiversity loss of grassland birds
by
Correll, Maureen D.
,
Panjabi, Arvind O.
,
Iovanna, Rich
in
Agricultural land
,
Agricultural production
,
Animals
2022
The decline of biodiversity from anthropogenic landscape modification is among the most pressing conservation problems worldwide. In North America, long-term population declines have elevated the recovery of the grassland avifauna to among the highest conservationpriorities. Because the vast majority of grasslands of the Great Plains are privately owned, the recovery of these ecosystems and bird populations within them depend on landscape-scale conservation strategies that integrate social, economic, and biodiversity objectives. The Conservation Reserve Program (CRP) is a voluntary program for private agricultural producers administered by the United States Department of Agriculture that provides financial incentives to take cropland out of production and restore perennial grassland. We investigated spatial patterns of grassland availability and restoration to inform landscape-scale conservation for a comprehensive community of grassland birds in the Great Plains. The research objectives were to (1) determine how apparent habitat loss has affected spatial patterns of grassland bird biodiversity, (2) evaluate the effectiveness of CRP for offsetting the biodiversity declines of grassland birds, and (3) develop spatially explicit predictions to estimate the biodiversity benefit of adding CRP to landscapes impacted by habitat loss. We used the Integrated Monitoring in Bird Conservation Regions program to evaluate hypotheses for the effects of habitat loss and restoration on both the occupancy and species richness of grassland specialists within a continuum-modeling framework. We found the odds of community occupancy declined by 37% for every 1 SD decrease in grassland availability [loge(km²)] and increased by 20% for every 1 SD increase in CRP land cover [loge(km²)]. There was 17% turnover in species composition between intact grasslands and CRP landscapes, suggesting that grasslands restored by CRP retained considerable, but incomplete, representation of biodiversity in agricultural landscapes. Spatially explicit predictions indicated that absolute conservation outcomes were greatest at high latitudes in regions with high biodiversity, whereas the relative outcomes were greater at low latitudes in highly modified landscapes. By evaluating community-wide responses to landscape modification and CRP restoration at bioregional scales, our study fills key information gaps for developing collaborative strategies, and for balancing conservation of avian biodiversity and social well-being in the agricultural production landscapes of the Great Plains.
Journal Article
Grassland Birds and Dairy Farms in the Northeastern United States
2014
Although grassland birds are declining throughout their North American range, and these declines are associated with agricultural land conversion or intensification, no broad-scale market-based conservation plan has been enacted. This gap is especially apparent in the northeastern United States, where remnant grassland habitat is predominantly on privately owned agricultural lands. However, in this region, dairy cow-based agriculture has also declined significantly. I explored the relationship between grassland-bird declines and dairy cow-based agriculture from 1966 to 2007. The declining number of dairy farms and increasing human population best explained variation in population trends for 4 of 6 grassland-bird species. Bird population trends were not explained by the total amount of corn acres, number of pasture–grazing farms, or the average farm size. I suggest a long-term conservation method using “buy local” campaigns where the local community supports a spatially linked network of cow-based farms, in part because these farms support grassland birds
Journal Article
Impacts of Solar Energy Development On Breeding Birds in Desert Grasslands In South Central New Mexico
2025
Solar energy is growing at unprecedented rates, with the most development projected to occur in areas with high concentrations of threatened and endangered species, yet its effects on wildlife remain largely unexplored. In 2014 and 2015 we examined the influence of a solar facility on avian community occupancy in the Nutt grasslands of south-central New Mexico. We examined the effect of distance to solar facility as well as other habitat covariates, including vegetation structure and orthopteran abundance, on community occupancy and occupancy trends for individual species. We did not find a significant effect of distance to solar facility on occupancy probability for the songbird community. Instead, orthopteran abundance had a significant positive effect on occupancy probability for the community. Two synanthropic species, Eurasian-collared dove (
Streptopelia decaocto
), and house finch (
Haemorhous mexicanus
), were found almost exclusively within the solar facility and both species increased between years, suggesting that developments in natural habitats may facilitate populations of synanthropic species. These results demonstrate the variability in responses of different species to a solar facility and the interacting influence of habitat characteristics and disturbance associated with development.
Journal Article
Adaptive rangeland management benefits grassland birds utilizing opposing vegetation structure in the shortgrass steppe
by
Monroe, Adrian P.
,
Derner, Justin D.
,
Augustine, David J.
in
Abundance
,
Adaptive management
,
Adaptive systems
2020
Rangelands are temporally and spatially complex socioecological systems on which the predominant land use is livestock production. In North America, rangelands also contain approximately 80% of remaining habitat for grassland birds, a guild of species that has experienced precipitous declines since the 1970s. While livestock grazing management may benefit certain grassland bird species by generating the vegetation structure and density they prefer, these outcomes are poorly understood for avian species breeding in the shortgrass steppe. We evaluated how two grazing management systems, continuous, season-long grazing and adaptive, rest-rotational grazing, affected grassland bird abundance from 2013 to 2017 in Colorado’s shortgrass steppe. We examined grazing impacts in conjunction with ecological sites, which constitute unique soil and plant communities. When grazing management was evaluated in conjunction with spatial variation in ecological sites, we found three of our five focal bird species responded to grazing management. McCown’s Longspur abundance decreased in pastures rested from grazing the previous year. The effect of grazing on Horned Lark and Grasshopper Sparrow depended on ecological site: Horned Lark density was highest in pastures that were intensively grazed and Grasshopper Sparrow density was highest in pastures that were rested the previous year in the least productive ecological site. In addition, densities of all species varied across ecological sites. Our results suggest consideration of soil and vegetation characteristics can inform how adaptive management is applied on a landscape to benefit the full suite of breeding grassland birds, including species that have seemingly contrasting habitat needs. For example, a manager could target adaptive drought mitigation practices, such as resting pastures for 1 yr to generate grassbanks, in less productive soils to benefit grassland birds that prefer taller/denser vegetation structure, or could apply intensive, short-duration grazing on less productive soils to benefit species preferring shorter/sparser vegetation. A single year of intensive, short-duration grazing (i.e., one component of our rotational treatment) across the landscape, however, might not create sufficient habitat for species that prefer short/sparse vegetation in our system (e.g., McCown’s Longspur). Ultimately, our study indicates how cattle production on rangelands can congruently support grassland bird populations in the shortgrass steppe.
Journal Article
Disease and weather induce rapid shifts in a rangeland ecosystem mediated by a keystone species (Cynomys ludovicianus)
2023
Habitat loss and changing climate have direct impacts on native species but can also interact with disease pathogens to influence wildlife communities. In the North American Great Plains, black-tailed prairie dogs (Cynomys ludovicianus) are a keystone species that create important grassland habitat for numerous species and serve as prey for predators, but lethal control driven by agricultural conflict has severely reduced their abundance. Novel disease dynamics caused by epizootic plague (Yersinia pestis) within prairie dog colonies have further reduced prairie dog abundances, in turn destabilizing associated wildlife communities. We capitalized on a natural experiment, collecting data on prairie dog distributions, vegetation structure, avian abundance, and mesocarnivore and ungulate occupancy before (2015–2017) and after (2018–2019) a plague event in northeastern Wyoming, USA. Plague decimated black-tailed prairie dog populations in what was then the largest extant colony complex, reducing colony cover in the focal area from more than 10,000 ha to less than 50 ha. We documented dramatic declines in mesocarnivore occupancy and raptor abundance post-plague, with probability of occupancy or abundance approaching zero in species that rely on prairie dogs for a high proportion of their diet (e.g., ferruginous hawk [Buteo regalis], American badger [Taxidea taxus], and swift fox [Vulpes velox]). Following the plague outbreak, abnormally high precipitation in 2018 hastened vegetation recovery from prairie dog disturbance on colonies in which constant herbivory had formerly maintained shortgrass structure necessary for certain colonyassociates. As a result, we observed large shifts in avian communities on former prairie dog colonies, including near-disappearance of mountain plovers (Charadrius montanus) and increases in mid-grass associated songbirds (e.g., lark bunting [Calamospiza melanocorys]). Our research highlights how precipitation can interact with disease-induced loss of a keystone species to induce drastic and rapid shifts in wildlife communities. Although grassland taxa have co-evolved with high spatiotemporal variation, fragmentation of the remaining North American rangelands paired with higher-than-historical variability in climate and disease dynamics are likely to destabilize these systems in the future.
Journal Article
Livestock grazing to maintain habitat of a critically endangered grassland bird
by
Leonard, Steve W. J.
,
Morgan, John W.
,
Nugent, Daniel T.
in
Animal husbandry
,
Anthus
,
Australia
2022
Livestock grazing is an important management tool for biodiversity conservation in many native grasslands across the globe. Understanding how different grazing species interact with their environment is integral to achieving conservation goals. In the semiarid grasslands of Australia, grazing by sheep or cattle is used to manipulate vegetation structure to suit the habitat needs of a globally unique, critically endangered grassland bird, the plains-wanderer Pedionomus torquatus. However, there has been no investigation of whether sheep and cattle differ in their effects on plains-wanderer habitat and, therefore, it is unknown if these grazers are substitutable as a management tool. Using a grazing experiment in native grasslands over 3 years, we determined the effects of grazer type (sheep, cattle) on occurrence and vocal activity of plains-wanderer, vegetation structure and composition, and food availability. We also examined grazer effects on encounter rates of other grassland birds. Plains-wanderer breeding activity was inferred from vocalization rates captured by bioacoustic recorders. Spotlighting was used to measure encounter rates of other grassland birds. We found that different grazers altered the structure of the habitat. Grasslands grazed by cattle were typically more open, less variable, and lacked patches of dense vegetation relative to those grazed by sheep. Grazer type did not influence the likelihood of plains-wanderer occurrence, but it did interact with year of survey to affect breeding activity. The number of days with one or more calls significantly increased at sheep grazed sites in year-3, which coincided with enduring drought conditions. Similarly, grazer effects on encounter rate of all birds, bird species richness, and Australasian pipit Anthus novaeseelandiae were different between years. Dense vegetation specialists (such as stubble quail Coturnix pectoralis) were positively associated with grasslands grazed by sheep. As a habitat management tool, sheep or cattle grazing are useful when the goal is to support an open grassland structure for the plains-wanderer. However, their substitutability is likely to be dependent upon climate. We caution that a loss of dense vegetation in grasslands grazed by cattle during drought could limit the availability of optimal habitat for the plains-wanderer and habitat for other grassland birds.
Journal Article
Effects of water level and grassland management on alpha and beta diversity of birds in restored wetlands
2016
Nearly 60% of European wetlands have been lost to drainage or to the cessation of grassland management. Large amounts of resources are put into wetland restoration with the aim to recover biodiversity. However, few studies have simultaneously evaluated effects of management, wetness and flooding dynamics on biodiversity of restored wetlands such as seasonally flooded wet grasslands. We inventoried bird communities over 4 years at 137 sites (each 3·1 ha) within five restored wet grassland areas in Sweden to investigate whether species richness and occurrence of 12 common wet grassland species were related to (i) local conditions such as management (grazing, mowing and unmanaged areas), basic wetness and spring flooding dynamics. Further, we investigated whether (ii) the composition of the adjacent landscape (20 ha) related to local bird diversity and (iii) species turnover (i.e. beta diversity) differed between sites characterized by their basic wetness, degree of flooding and predominant management regime. Local species richness was positively linked to degree of flooding and basic wetness of grasslands but not to type of grassland management. Species richness tended also to be negatively linked to proportion of forest at the landscape scale. Although variable, the same results were also true concerning the probability of the occurrence of a single species at the local scale. Species turnover between sites, and thus total species richness, was distinctly higher in (i) grazed as compared to mowed grasslands except in dry non‐flooded grasslands and (ii) flooded as compared to non‐flooded sites. Similar patterns held for the subset of 12 red‐listed species. We suggest that the high beta diversity in grazed and flooded grasslands is driven by the heterogeneous vegetation structure, resulting in good conditions for foraging and nesting for several wet grassland bird species. Synthesis and applications. The selection of wetlands for conserving wet grassland birds should prioritize temporary flooded grasslands of moderate wetness, preferably far from forest edges. Restoration and management of wet grasslands should include water level management, removal of shrubs and trees, and low‐intensity grazing, whereas mowing could be used in non‐flooded grasslands of low basic wetness.
Journal Article
Exploring management strategies for open‐country birds: A case study from a rice‐dominated landscape
by
Gale, George A.
,
Ngoprasert, Dusit
,
Limparungpatthanakij, Wich'yanan
in
Acrocephalus
,
Agricultural land
,
Agricultural management
2025
Effective conservation management relies on accessing and integrating various forms of evidence regarding the potential effects of management interventions. Here, we aim to identify key management options to enhance habitat suitability and mitigate threats for grassland and farmland birds in the Central Plains of Thailand, a key area for open‐country birds in the region, using a Bayesian Belief Network (BBN) approach. We selected eight at‐risk passerine landbird species as focal taxa and developed up to nine scenarios to assess the potential impacts on the area of available suitable habitat for each species under different management options: a status quo scenario depicting the current situation, a future scenario if no action is taken, and up to seven scenarios each with management options. Three options focused on improving and/or maintaining habitat suitability, and the other four targeted threat mitigation. We then sought the best combination of management options, based on results from the above scenarios. The models predicted that each species would respond differently to each option depending on their ecological niches. If no action is taken in the near future, the highest quality habitats for all species were predicted to decrease from the current situation, with some species facing substantial habitat loss. For example, the globally Vulnerable Manchurian reed warbler Acrocephalus tangorum was predicted to lose nearly all of its highest suitability habitats (a 93% decline). The best conservation strategy involved implementing multiple management options, with tax incentives playing a particularly important role—and being the most effective measure for four species and the second most effective for the remaining four. Species‐specific responses varied; two species required fewer interventions, while others needed multiple concurrent management strategies. For instance, the highest suitability areas for the Manchurian reed warbler and Oriental skylark Alauda gulgula reached an asymptote when two management options were applied together, whereas species like the long‐tailed shrike Lanius schach required four interventions simultaneously. Our study underscores the advantages of this BBN approach for prioritizing optimal management strategies before implementation. It is adaptable for various decision‐making processes and can be applied to other species and agricultural systems, particularly those lacking baseline data.
Journal Article
Are northern bobwhites an umbrella species for open-land birds in Ohio?
by
Rosenblatt, Connor J.
,
Shumar, Matthew B.
,
Peterman, William E.
in
Abundance
,
Barren lands
,
Birds
2022
Birds that inhabit open lands such as grasslands and shrublands are rapidly declining across North America. A common practice for multi-species management is to focus on umbrella species whose habitat requirements overlap with several other species. We evaluated whether the northern bobwhite (Colinus virginianus; bobwhite) could serve as an umbrella species for open-land birds in Ohio, USA. We related landscape metrics to abundance patterns and assessed whether bobwhite occupancy positively predicts presence of open-land birds. We combined bird survey data from the second Ohio Breeding Bird Atlas (2006–2011) with land cover data from the 2011 National Land Cover Database (Homer et al. 2015) to construct single-season N-mixture models to identify landscape metrics that influence bobwhite abundance. Bobwhite abundance was positively predicted by forest cohesion, percent agriculture, percent barren, and percent grassland. Of the 34 focal species, bobwhites were a significant positive predictor for 12, and a significant negative predictor for 10. The model with only bobwhite occupancy probability as a predictor was the best supported model for only willow flycatcher (Empidonax traillii). These results suggest that bobwhite land cover type requirements are too specialized to meet the needs of broader species guilds, instead affording protection for a narrower range of individual species that share specific habitat requirements with bobwhites. Management for bobwhites may still be able to promote co-occurrence for declining species across multiple guilds by identifying locations where focused management can create more suitable conditions for species with positive co-occurrence.
Journal Article