Your search keyword '"David J. Augustine"' showing total 144 results

51. Noseband sensor validation and behavioural indicators for assessing beef cattle grazing on extensive pastures

Author

Kathy J. Soder, Justin D. Derner, Edward J. Raynor, and David J. Augustine

Subjects

geography, Herbivore, geography.geographical_feature_category, Foraging, Forage, Beef cattle, Pasture, Animal science, Concordance correlation coefficient, Food Animals, Grazing, Environmental science, Animal Science and Zoology, Rangeland

Abstract

Advances in on-animal sensor technologies to monitor location and activity have enhanced the ability to study foraging decisions of free-ranging herbivores. Sensors monitoring jaw movements that quantify ingestive behaviours, such as the RumiWatch (RW) noseband sensor system, have primarily been used in indoor animal housing systems or structurally homogeneous, small pasture (paddock) environments. Continuously monitoring these ingestive behaviours in extensive and heterogeneous rangelands has not been previously conducted. We evaluated the accuracy of the RW noseband sensor system for two grazing seasons in 130-ha pastures (paddocks) composed of native, mixed-species plant communities in a semiarid environment. The noseband sensor was used to compare ingestive behavior at different sites and seasons characterized by varying sward complexity, stocking rate, and levels of forage limitation. We evaluated the noseband sensor against direct visual observations of yearling steers grazing with two different validation studies. First, the time duration of grazing recorded by the sensor was compared to direct visual observation data (Validation Study 1). A high correlation (rs = 0.95) for hourly grazing time resulted between the RW system and visual observations. Second, we examined the ability of the RW system to measure prehension bite rates in distinct plant communities varying in height and leaf angle (Validation Study 2). The accordance between direct observation and measurement by the RW system for bite rate improved from 2019 (Concordance Correlation Coefficient (CCC) = 0.71) to 2020 (CCC = 0.80) after modifications to improve the fit of the halter supporting the noseband sensor. Correlations between the sensor and visual observations increased by ∼17 % with this modification for grazing bouts in mixed-species and midgrass-dominated swards; correlations remained ∼10 % lower in shortgrass-dominated swards. Our results show that the RW system is an effective tool for monitoring free-ranging cattle grazing activity and quantifying bite rates in a heterogeneous rangeland ecosystem. Bite rate measurements are more accurate in swards with vertically oriented stems and leaves compared to lawn-like prostrate swards. Grazing bout length and rumination chew rate may represent behavioral indicators employed in managing animal performance in semiarid rangelands. Our validation study and experimental investigation indicate that the RW noseband sensor is a useful animal-borne sensor technology for research demanding sustained ingestion measurements across mixed-species forage communities.

Published

2021

52. Evaluation of APEX modifications to simulate forage production for grazing management decision-support in the Western US Great Plains

Author

David J. Augustine, Cody J. Zilverberg, James Williams, David L. Hoover, Liwang Ma, G. Cheng, Justin D. Derner, R. D. Harmel, P.N.S. Bartling, Randall B. Boone, Qiang Yu, and Quanxiao Fang

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Agroforestry, Simulation modeling, Context (language use), Forage, 04 agricultural and veterinary sciences, 01 natural sciences, Pasture, Adaptive management, Rangeland management, Grazing, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Animal Science and Zoology, Rangeland, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

Context Understanding how grazing management decisions influence the productivity and composition of rangeland plant communities is essential for the development of effective strategies to sustainably produce multiple ecosystem goods and services. Informed with experimental measurements, simulation models can advance our understanding and stewardship of rangeland ecosystems. Objective Our main objective was to evaluate the APEX (Agricultural Policy/Environmental eXtender) plant growth modules and grazing animal selectivity in simulating forage production using experimental data collected from both traditional season-long grazing and adaptive rotational grazing management on western rangelands. Specifically, we evaluated APEX's capability to simulate forage productivity and its response to soil types and climate conditions under grazing management options. Methods Capitalizing on a comparative field study with 20 large pastures (> 123 ha each), APEX modifications were evaluated by comparing simulated forage production with experimental data. The field study evaluated traditional grazing (season long grazing on a single pasture) and an alternative grazing system that utilized collaborative adaptive rangeland management with stakeholders engaged in decision making (such as when and where to rotate a single herd). APEX was modified to include rotational grazing based on a user-defined sequence and automatic rotational grazing based on user-defined forage grazing limits and minimum/maximum grazing durations. Results and conclusions The APEX model was able to simulate the relative differences in forage production between grazing treatments, across years, and among soil types; however, APEX underestimated forage production in 2015 and 2017 due to overestimating drought stress for the warm season perennial grass functional group. Simulation of grazing management scenarios showed that the collaborative adaptive management decision criteria resulted in grazing durations that produced more forage than consistent 7- or 14-day rotation intervals. Significance These modifications were needed to capture the complexity of semiarid environments and thus enhance APEX to better assess grazing management decisions on forage production in regions such as the Western US Great Plains.

Published

2021

53. Semi‐arid grassland bird responses to patch‐burn grazing and drought

Author

Susan K. Skagen, Justin D. Derner, and David J. Augustine

Subjects

0106 biological sciences, geography, education.field_of_study, geography.geographical_feature_category, Ecology, biology, Longspur, Steppe, Population, Vegetation, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Grassland, 010601 ecology, Nest, Habitat, General Earth and Planetary Sciences, Horned larks, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Abstract

As grassland birds of central North America experience steep population declines with changes in land use, management of remaining tracts becomes increasingly important for population viability. The integrated use of fire and grazing may enhance vegetation heterogeneity and diversity in breeding birds, but the subsequent effects on reproduction are unknown. We examined the influence of patch-burn grazing management in shortgrass steppe in eastern Colorado on habitat use and reproductive success of 3 grassland bird species, horned lark (Eremophila alpestris), lark bunting (Calamospiza melanocorys), and McCown's longspur (Rhynchophanes mccownii), at several spatial scales during 2011 and 2012. Although no simple direct relationship to patch-burn grazing treatment existed, habitat selection depended on precipitation- and management-induced vegetation conditions and spatial scale. All species selected taller-than-expected vegetation at the nest site, whereas at the territory scale, horned larks and McCown's longspurs selected areas with low vegetation height and sparse cover of tall plants (taller than the dominant shortgrasses). Buntings nested primarily in unburned grassland under average rainfall. Larks and longspurs shifted activity from patch burns during average precipitation (2011) to unburned pastures during drought (2012). Daily survival rate (DSR) of nests varied with time in season, species, weather, and vegetation structure. Daily survival rate of McCown's longspur nests did not vary with foliar cover of relatively tall vegetation at the nest under average precipitation but declined with increasing cover during drought. At the 200-m scale, increasing cover of shortgrasses, rather than taller plant species, improved DSR of larks and longspurs. These birds experience tradeoffs in the selection of habitat at different spatial scales: tall structure at nests may reduce visual detection by predators and provide protection from sun, wind, and rain, yet taller structure surrounding territories may host nest predators. Patch-burn grazing management in combination with other strategies that retain taller-structured vegetation may help sustain a diversity of breeding habitats for shortgrass birds under varying weather conditions.Published 2017. This article is a U.S. Government work and is in the public domain in the USA.

Published

2017

54. Vulnerability of grazing and confined livestock in the Northern Great Plains to projected mid- and late-twenty-first century climate

Author

William R. Travis, Justin D. Derner, Derek Scasta, Hailey Wilmer, Dannele E. Peck, Jerry D. Volesky, David J. Augustine, Matthew C. Reeves, John R. Hendrickson, Dana M. Blumenthal, Miranda A. Meehan, David D. Briske, Tami M. Brown-Brandl, and Laura M. Edwards

Subjects

Atmospheric Science, Global and Planetary Change, Adaptive capacity, 010504 meteorology & atmospheric sciences, business.industry, Environmental resource management, Biodiversity, Vulnerability, 04 agricultural and veterinary sciences, Beef cattle, 01 natural sciences, Ecosystem services, Geography, Agriculture, Grazing, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Livestock, business, 0105 earth and related environmental sciences

Abstract

The Northern Great Plains (NGP) region of the USA—which comprises Montana, Wyoming, Colorado, North Dakota, South Dakota, and Nebraska—is a largely rural area that provides numerous ecosystem services, including livestock products, cultural services, and conservation of biological diversity. The region contains 25% of the Nation’s beef cattle and approximately one-third of the confined beef cattle, as well as the largest remaining native prairie in the US—the Northern Mixedgrass Prairie. With rising atmospheric CO2, the NGP is projected to experience warmer and longer growing seasons, greater climatic variability, and more extreme events (e.g., increased occurrence of large precipitation events). These climatic changes may affect livestock production both directly via physiological impacts on animals and indirectly via modifications to forage, invasion of undesirable plants, and increased exposure to parasites. This raises concerns about the vulnerability of grazing livestock operations and confined livestock operations to projected changes in mid- (2050) and late- (2085) twenty-first century climate. Our objectives are to (1) describe the NGP’s exposure to temperature and precipitation trends, inter-annual variability, and extreme events; (2) evaluate the sensitivity of beef cattle production to direct and indirect effects imposed by these projected climatic changes; and (3) provide a typology of adaptation strategies to minimize adverse consequences of projected changes and maximize beneficial consequences. Agricultural managers have developed considerable adaptive capacity to contend with environmental and economic variability. However, projected climatic changes, especially the increased frequency and magnitude of weather extremes, will require even greater adaptive capacity to maintain viable production systems. Consequently, regional vulnerability to projected climatic changes will be determined not only by ecological responses but also by the adaptive capacity of individual managers. Adaptive capacity in the NGP will differ from other regions, in part because projections suggest some opportunities for increased livestock production. Adaptations in both grazing and confined beef cattle systems will require enhanced decision-making skills capable of integrating biophysical, social, and economic considerations. Social learning networks that support integration of experimental and experiential knowledge—such as lessons learned from early adopters and involvement with science-based organizations—can help enhance decision-making and climate adaptation planning. Many adaptations have already been implemented by a subset of producers in this region, providing opportunities for assessment, further development, and greater adoption. Context-specific decision-making can also be enhanced through science-management partnerships, which aim to build adaptive capacity that recognizes multiple production and conservation/environmental goals.

Published

2017

55. Plant Community Composition After 75 Yr of Sustained Grazing Intensity Treatments in Shortgrass Steppe

Author

Justin D. Derner, David J. Augustine, Daniel G. Milchunas, and Lauren M. Porensky

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, Perennial plant, biology, Steppe, Plant community, Management, Monitoring, Policy and Law, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Grassland, Hesperostipa comata, Agronomy, Bouteloua gracilis, Grazing, Environmental science, Animal Science and Zoology, Conservation grazing, 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Plant community responses to livestock grazing lack conformity across studies, even those conducted within similar ecosystems. Variability in outcomes can often be traced back to short-term or mid-term weather patterns, differences in grazing timing or intensity, or interactive effects of management and weather. Long-term experimental data are needed to determine how grazing intensity affects plant community composition in semiarid ecosystems where precipitation is low and highly variable. However, long-term grazing intensity experiments, particularly experiments with more than two grazing intensity treatment levels, are quite rare. We capitalized on one of the longest-term grazing studies, with 75 yr of sustained stocking rate treatments (none, light, moderate, and heavy), to identify long-term effects of livestock grazing on plant community composition in shortgrass steppe. Plant community composition was similar between moderately and heavily grazed pastures after 75 yr of continuous, season-long (May to October) grazing treatments, and heavy grazing did not extirpate cool-season perennial graminoids. These findings support the long-term sustainability of livestock grazing in the shortgrass steppe, which has high resistance to season-long heavy grazing. Conversely, ungrazed and lightly grazed pastures experienced relatively large shifts in plant community composition, especially in the past 25 yr. Light or no grazing was associated with increased abundance of cool-season perennial graminoids, as well as several weedy and invasive species. Moreover, across most grazing treatments, several aspects of plant community composition have been shifting directionally during the past 25 yr, which recent experiments in this grassland suggest may be a response to increasing atmospheric (CO2). The shortgrass steppe is not only tolerant of fairly high grazing intensities but also likely requires some level of grazing to resist invasion by weedy annuals and to maintain cover of blue grama, a highly drought-tolerant species.

Published

2017

56. Weather radar data correlate to hail-induced mortality in grassland birds

Author

Diana F. Tomback, David J. Augustine, Jeremy D. Ross, Angela M. Dwyer, Amber R. Carver, Susan K. Skagen, and Michael B. Wunder

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, Severe weather, Climate change, Vegetation, NEXRAD, Atmospheric sciences, 01 natural sciences, Grassland, 010605 ornithology, law.invention, Nest, law, Wind shear, Environmental science, Weather radar, Computers in Earth Sciences, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Small-bodied terrestrial animals such as songbirds (Order Passeriformes) are especially vulnerable to hail-induced mortality; yet, hail events are challenging to predict, and they often occur in locations where populations are not being studied. Focusing on nesting grassland songbirds, we demonstrate a novel approach to estimate hail-induced mortality. We quantify the relationship between the probability of nests destroyed by hail and measured Level-III Next Generation Radar (NEXRAD) data, including atmospheric base reflectivity, maximum estimated size of hail and maximum estimated azimuthal wind shear. On 22 June 2014, a hailstorm in northern Colorado destroyed 102 out of 203 known nests within our research site. Lark bunting (Calamospiza melanocorys) nests comprised most of the sample (n = 186). Destroyed nests were more likely to be found in areas of higher storm intensity, and distributions of NEXRAD variables differed between failed and surviving nests. For 133 ground nests where nest-site vegetation was measured, we examined the ameliorative influence of woody vegetation, nest cover and vegetation density by comparing results for 13 different logistic regression models incorporating the independent and additive effects of weather and vegetation variables. The most parsimonious model used only the interactive effect of hail size and wind shear to predict the probability of nest survival, and the data provided no support for any of the models without this predictor. We conclude that vegetation structure may not mitigate mortality from severe hailstorms and that weather radar products can be used remotely to estimate potential for hail mortality of nesting grassland birds. These insights will improve the efficacy of grassland bird population models under predicted climate change scenarios.

Published

2017

57. Grazing moderates increases in C 3 grass abundance over seven decades across a soil texture gradient in shortgrass steppe

Author

Lauren M. Porensky, Daniel G. Milchunas, David J. Augustine, Justin D. Derner, and Dana M. Blumenthal

Subjects

2. Zero hunger, 0106 biological sciences, geography, Herbivore, geography.geographical_feature_category, Ecology, Soil texture, Steppe, Plant community, Pascopyrum, 04 agricultural and veterinary sciences, Plant Science, 15. Life on land, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Grazing, Bouteloua gracilis, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Ruderal species

Abstract

Questions How does long-term exclusion of cattle grazing influence plant community composition in a semiarid grassland? Can spatial variation in the effects of cattle grazing exclusion be explained by variation in soil texture? Location The shortgrass steppe of northeastern Colorado, USA, located in the North American Great Plains. Method We used 16 long-term (72 yr) cattle exclosures to examine the effects of grazers on plant communities, and evaluate whether grazer effects interact with soil texture. Results Although shortgrass steppe communities are relatively unaffected by grazing in the short-term (1-2 decades), exclusion of cattle grazing for seven decades caused a compositional shift from dominance by a C4 shortgrass (Bouteloua gracilis) to co-dominance by a C3 midgrass (Pascopyrum smithii) and B. gracilis. The strength of this shift was highly variable across sites. Soil texture was correlated with the abundance of certain plant species, but did not explain variation in the magnitude of grazer effects. Grazed communities contained perennial and annual growth forms with a diversity of strategies to coexist with grazers and B. gracilis. Ungrazed communities included increased abundance of annual, ruderal forbs and three woody plant species. Grazing effects occurred against a backdrop of changing plant communities: during the past seven decades, C3 perennial graminoids and subshrubs have increased in relative abundance in both grazed and ungrazed communities. Conclusions Our long-term experiment shows that community responses to grazing in this semiarid grassland occur very slowly, but are predictable, with C4 shortgrasses eventually giving way to taller C3 grasses and ruderal forbs. Spatial variation in grazing effects across sites (and lack of a relationship with soil texture) may reflect the importance of fine-scale heterogeneity in C3 grass abundance, and the slow rate at which taller C3 grasses can coalesce into monodominant patches that outcompete C4 shortgrasses. Increased abundance of C3 species over the past seven decades, both in the presence and absence of grazing, may be related to recovery from the severe drought and dust storms of the 1930s as well as enhanced growth of C3 plants under increasing atmospheric [CO2]. This article is protected by copyright. All rights reserved.

Published

2017

58. Adaptive rangeland management benefits grassland birds utilizing opposing vegetation structure in the shortgrass steppe

Author

Justin D. Derner, David J. Augustine, Kristin P. Davis, Cameron L. Aldridge, and Adrian P. Monroe

Subjects

0106 biological sciences, geography, Colorado, Livestock, geography.geographical_feature_category, Ecology, Steppe, 010604 marine biology & hydrobiology, Vegetation, Grassland, 010603 evolutionary biology, 01 natural sciences, Songbirds, Habitat, Rangeland management, North America, Guild, Grazing, Animals, Cattle, Rangeland, Ecosystem

Abstract

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.

Published

2019

59. Large-scale and local climatic controls on large herbivore productivity: implications for adaptive rangeland management

Author

David L. Hoover, William J. Parton, Edward J. Raynor, David J. Augustine, and Justin D. Derner

Subjects

0106 biological sciences, El Nino-Southern Oscillation, Herbivore, geography, geography.geographical_feature_category, Colorado, Ecology, Steppe, 010604 marine biology & hydrobiology, Growing season, General Medicine, Atmospheric sciences, 010603 evolutionary biology, 01 natural sciences, La Niña, Sea surface temperature, Environmental science, Precipitation, Herbivory, Seasons, Rangeland, Pacific decadal oscillation, Ecosystem

Abstract

Rangeland ecosystems worldwide are characterized by a high degree of uncertainty in precipitation, both within and across years. Such uncertainty creates challenges for livestock managers seeking to match herbivore numbers with forage availability to prevent vegetation degradation and optimize livestock production. Here, we assess variation in annual large herbivore production (LHP, kg/ha) across multiple herbivore densities over a 78-yr period (1940-2018) in a semiarid rangeland ecosystem (shortgrass steppe of eastern Colorado, USA) that has experienced several phase changes in global-level sea surface temperature (SST) anomalies, as measured by the Pacific Decadal Oscillation (PDO) and the El Nino-Southern Oscillation (ENSO). We examined the influence of prevailing PDO phase, magnitude of late winter (February-April) ENSO, prior growing-season precipitation (prior April to prior September) and precipitation during the six months (prior October to current April) preceding the growing season on LHP. All of these are known prior to the start of the growing season in the shortgrass steppe and could potentially be used by livestock managers to adjust herbivore densities. Annual LHP was greater during warm PDO irrespective of herbivore density, while variance in LHP increased by 69% (moderate density) and 91% (high density) under cold-phase compared to warm-phase PDO. No differences in LHP attributed to PDO phase were observed with low herbivore density. ENSO effects on LHP, specifically La Nina, were more pronounced during cold-phase PDO years. High herbivore density increased LHP at a greater rate than at moderate and low densities with increasing fall and winter precipitation. Differential gain, a weighted measure of LHP under higher relative to lower herbivore densities, was sensitive to prevailing PDO phase, ENSO magnitude, and precipitation amounts from the prior growing season and current fall-winter season. Temporal hierarchical approaches using PDO, ENSO, and local-scale precipitation can enhance decision-making for flexible herbivore densities. Herbivore densities could be increased above recommended levels with lowered risk of negative returns for managers during warm-phase PDO to result in greater LHP and less variability. Conversely, during cold-phase PDO, managers should be cognizant of the additional influences of ENSO and prior fall-winter precipitation, which can help predict when to reduce herbivore densities and minimize risk of forage shortages.

Published

2019

60. Community-Engaged Research Builds a Nature-Culture of Hope on North American Great Plains Rangelands

Author

John P. Ritten, Dannele P. Peck, Hailey Wilmer, María E. Fernández-Giménez, Justin D. Derner, Lauren M. Porensky, and David J. Augustine

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, goals and objectives, Sense of place, General Social Sciences, Participatory action research, Livelihood, Conservation communities, 01 natural sciences, sense of place, 010601 ecology, lcsh:Social Sciences, lcsh:H, Rangeland management, natural resource management, Political science, Sustainability, grassland bird conservation, collaborative adaptive management, Natural resource management, Management by objectives, Environmental planning, 0105 earth and related environmental sciences

Abstract

In the North American Great Plains, multigenerational ranches and grassland biodiversity are threatened by dynamic and uncertain climatic, economic, and land use processes. Working apart, agricultural and conservation communities face doubtful prospects of reaching their individual goals of sustainability. Rangeland research could serve a convening platform, but experimental studies seldom involve local manager communities. The Collaborative Adaptive Rangeland Management (CARM) project, however, has undertaken a ten-year, ranch-level, participatory research effort to explore how community-engaged research can increase our understanding of conservation and ranching goals. Using ethnographic data and the nature-culture concept&mdash, which recognizes the inseparability of ecological relationships that are shaped by both biological and social processes&mdash, we examine the CARM team&rsquo, s process of revising their management objectives (2016&ndash, 2018). In CARM&rsquo, s early days, the team established locally-relevant multifunctional goals and objectives. As team members&rsquo, understanding of the ecosystem improved, they revised objectives using more spatially, temporally and ecologically specific information. During the revision process, they challenged conventional ecological theories and grappled with barriers to success outside of their control. The emerging CARM nature-culture, based on a sense of place and grounded in hope, provides insights into effective community-engaged research to enhance rangeland livelihood and conservation outcomes.

Published

2019

61. Complexity fosters learning in collaborative adaptive management

Author

Michelle O. Stewart, David D. Briske, Hailey Wilmer, David J. Augustine, Lauren M. Porensky, María E. Fernández-Giménez, and Justin D. Derner

Subjects

adaptive management, Knowledge management, Ecology, QH301-705.5, business.industry, Computer science, north american great plains, environmental governance, Social learning, collaboration, knowledge coproduction, social learning, Adaptive management, Environmental governance, Biology (General), business, QH540-549.5

Abstract

Learning is recognized as central to collaborative adaptive management (CAM), yet few longitudinal studies examine how learning occurs in CAM or apply the science of learning to interpret this process. We present an analysis of decision-making processes within the collaborative adaptive rangeland management (CARM) experiment, in which 11 stakeholders use a structured CAM process to make decisions about livestock grazing and vegetation management for beef, vegetation, and wildlife objectives. We analyzed four years of meeting transcripts, stakeholder communications, and biophysical monitoring data to ask what facilitated and challenged stakeholder decision making, how challenges affected stakeholder learning, and whether CARM met theorized criteria for effective CAM. Despite thorough monitoring and natural resource agency commitment to implementing collaborative decisions, CARM participants encountered multiple decision-making challenges born of ecological and social complexity. CARM was effective in achieving several of its management objectives, including reduced ecological uncertainty, knowledge coproduction, and multiple-loop social learning. CARM revealed limitations of the idealized CAM cycle and challenged conceptions of adaptive management that separate reduction of scientific uncertainty from participatory and management dimensions. We present a revised, empirically grounded CAM framework that depicts CAM as a spiral rather than a circle, where feedback loops between monitoring data and management decisions are never fully closed. Instead, complexities including time-lags, trade-offs, path-dependency, and tensions among stakeholders' differing types of knowledge and social worlds both constrain decision making and foster learning by creating disorienting dilemmas that challenge participants' pre-existing mental models and relationships. Based on these findings, we share recommendations for accelerating learning in CAM processes.

Published

2019

62. Application of grazing land models in ecosystem management: Current status and next frontiers

Author

Justin D. Derner, Brendan Cullen, Pierre C. Beukes, R. Daren Harmel, Andrew D. Moore, Liwang Ma, Mark T. van Wijk, John Tatarko, David J. Augustine, Randall B. Boone, Michael B. Coughenour, Gianni Bellocchi, C. Alan Rotz, Hailey Wilmer, Rangeland Resources and Systems Research Unit, USDA-ARS : Agricultural Research Service, Center for Agricultural Resources Research, Chinese Academy of Sciences [Changchun Branch] (CAS), Agriculture & Food, Black Mountain Science and Innovation Precinct, Commonwealth Scientific and Industrial Research Organisation [Canberra] (CSIRO), Pasture Systems and Watershed Management Research Unit, Natural Resource Ecology Laboratory, Colorado State University [Fort Collins] (CSU), DairyNZ, International Livestock Research Institute [CGIAR, Nairobi] (ILRI), International Livestock Research Institute [CGIAR, Ethiopie] (ILRI), Consultative Group on International Agricultural Research [CGIAR] (CGIAR)-Consultative Group on International Agricultural Research [CGIAR] (CGIAR), Unité Mixte de Recherche sur l'Ecosystème Prairial - UMR (UREP), Institut National de la Recherche Agronomique (INRA)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS), Faculty of Veterinary and Agricultural Sciences, University of Melbourne, United States Department of Agriculture - Agricultural Research Service, Sustainable Livestock Systems, and International Livestock Research Institute, CGIAR (ILRI)

Subjects

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences, pâturage, Land management, simulation models, modèle de simulation, Ecosystem services, Grazing, gestion, gestion de pâturage, Ecosystem, modélisation, business.industry, Environmental resource management, 04 agricultural and veterinary sciences, 15. Life on land, écosystème prairial, Climate change mitigation, 13. Climate action, Sustainability, 040103 agronomy & agriculture, Ecosystem management, 0401 agriculture, forestry, and fisheries, Environmental science, Spatial variability, business, outil d'aide à la décision

Abstract

Grazing land models can assess the provisioning and trade-offs among ecosystem services attributable to grazing management strategies. We reviewed 12 grazing land models used for evaluating forage and animal (meat and milk) production, soil C sequestration, greenhouse gas emission, and nitrogen leaching, under both current and projected climate conditions. Given the spatial and temporal variability that characterizes most rangelands and pastures in which animal, plant, and soil interact, none of the models currently have the capability to simulate a full suite of ecosystem services provided by grazing lands at different spatial scales and across multiple locations. A large number of model applications have focused on topics such as environmental impacts of grazing land management and sustainability of ecosystems. Additional model components are needed to address the spatial and temporal dynamics of animal foraging behavior and interactions with biophysical and ecological processes on grazing lands and their impacts on animal performance. In addition to identified knowledge gaps in simulating biophysical processes in grazing land ecosystems, our review suggests further improvements that could increase adoption of these models as decision support tools. Grazing land models need to increase user-friendliness by utilizing available big data to minimize model parameterization so that multiple models can be used to reduce simulation uncertainty. Efforts need to reduce inconsistencies among grazing land models in simulated ecosystem services and grazing management effects by carefully examining the underlying biophysical and ecological processes and their interactions in each model. Learning experiences among modelers, experimentalists, and stakeholders need to be strengthened by co-developing modeling objectives, approaches, and interpretation of simulation results.

Published

2019

63. Managing Browsing and Grazing Ungulates

Author

Samuel D. Fuhlendorf, David J. Augustine, and Richard W.S. Fynn

Subjects

Herbivore, Ungulate, biology, business.industry, Environmental resource management, Biodiversity, Livelihood, biology.organism_classification, Ecosystem services, Geography, Grazing, Ecosystem, Rangeland, business

Abstract

As anthropogenic influences on the world’s rangelands accelerate, there is an urgency for humanity to develop a greater understanding of key drivers, and processes, underlying ecological dynamics and function, to inform improved management strategies. Browsing and grazing ungulates are important components of human-dominated and natural ecosystems, contributing to agricultural output and associated livelihoods, as well as to biodiversity and ecosystem services. A review of key concepts pertinent to the dynamics and management of browsing and grazing ungulates highlights the emergence of functional heterogeneity as a general, or unifying, theme guiding their management, whatever the scale or system. It is also clear that management of ungulate density, and the intensity of herbivory, especially in smaller-scale sedentary systems (e.g. ranches or small protected areas), is a critical determinant of functional heterogeneity. We demonstrate how the functional heterogeneity concept can be applied to the management of grazing and browsing ungulates over a range of scales and ecosystems.

Published

2019

64. Adaptive Management for Drought on Rangelands

Author

Justin D. Derner and David J. Augustine

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Computer science, Geography, Planning and Development, Weather and climate, Management, Monitoring, Policy and Law, enterprise flexibility, risk management, 01 natural sciences, herd structure, Stocking, risk reduction, Risk management, 0105 earth and related environmental sciences, Flexibility (engineering), Ecology, business.industry, Environmental resource management, resiliency, Spatial heterogeneity, 010601 ecology, Adaptive management, Spatial variability, Rangeland, grassbanking, business

Abstract

On the Ground•Adaptive management can be used to manage complexity, such as how to match forage production variability across years and within portions of a grazing season with animal demand through management flexibility.•Adaptive management strategies should incorporate flexibility and feedback mechanisms informed by appropriate seasonal weather variables and monitoring metrics to both increase resiliency of rangeland ecosystems and reduce risk for the ranching enterprise associated with drought.•For management flexibility, we provide four general strategies that ranchers can use to deal with drought: 1) predict it using weather and climate forecasting tools, 2) track it, 3) employ conservative stocking rates, and 4) utilize inherent spatial variability.•Adaptive grazing management plans that seek to integrate drought prediction tools, conservative but flexible stocking, and existing and predicted spatial heterogeneity in forage quantity and quality can be incorporated into conservation practices where spatial heterogeneity in forage resources within and among allotments/pastures is often not explicitly monitored or considered when planning livestock movements.

Published

2016

65. Thresholds and gradients in a semi-arid grassland: long-term grazing treatments induce slow, continuous and reversible vegetation change

Author

Kevin E. Mueller, Lauren M. Porensky, Justin D. Derner, and David J. Augustine

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Ecology, biology, Agroforestry, Vegetation, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Arid, Grassland, Hesperostipa comata, Term (time), 010601 ecology, Alternative stable state, Grazing, Environmental science, Rangeland

Published

2016

66. Climatic and management determinants of large herbivore production in semiarid grassland

Author

Justin L. Reeves, Edward J. Raynor, Daniel G. Milchunas, David J. Augustine, and Justin D. Derner

Subjects

0106 biological sciences, Herbivore, geography, geography.geographical_feature_category, Ecology, Growing season, Forage, 04 agricultural and veterinary sciences, Seasonality, medicine.disease, 010603 evolutionary biology, 01 natural sciences, Grassland, Agronomy, Grazing, Soil water, 040103 agronomy & agriculture, medicine, 0401 agriculture, forestry, and fisheries, Environmental science, Animal Science and Zoology, Precipitation, Agronomy and Crop Science

Abstract

Knowledge of climatic and management influences on large herbivore production (LHP, kg ha−1) is needed for low productivity, semiarid grasslands to address potential consequences of both increasing climate variability and the need to increase animal protein for human consumption. Here, we evaluate the influence of climatic variability and herbivore density on LHP in semiarid grassland using a unique long-term (80 years: 1939–2018) grazing study with three grazing intensities based on forage utilization (light, moderate and heavy). Seasonal variation in precipitation, but not temperature, was the primary influence on LHP. Winter (October-March) and spring (April-June), but not summer (July-September), precipitation during the current year positively influenced LHP across the 3 grazing intensities, whereas prior growing season (prior April-September) precipitation was consistently a negative influence. Although spring precipitation was the most influential seasonal weather variable for LHP, the effect of winter precipitation closely followed under all three grazing intensities, suggesting that non-growing season precipitation is essential for soil water storage to initiate production of sufficient high-quality forage in the subsequent grazing season, resulting in a positive feedback on LHP. A key finding from our analysis was that the effect of summer precipitation is smaller than the combined effects of winter and spring precipitation. As such, much of the variation in LHP can be predicted by seasonal weather parameters that are known early in the growing season. The magnitude of seasonal precipitation effects on LHP was greatest for heavy grazing; consequently LHP with heavy grazing is more reliant on primary production produced in the current year to increase LHP as forage quantity is more limiting than forage quality. Moreover, stability of LHP across years (range: 7.5 to 34.6 kg ha−1) was less with heavy grazing, which results in “boom-bust” economics that threaten sustainability of operations. Management adaptations to mitigate climatic variability, therefore, will be most necessary and advantageous when land managers employ heavy grazing intensities. Despite the substantial interannual variability in precipitation that characterizes semiarid grasslands, our results show that proactive flexibility by land managers in adjusting grazing management decisions to seasonal precipitation amounts forecasted for the winter and spring seasons would reduce enterprise risk and improve confidence in decision-making, profitability, production efficiency and environmental sustainability from semiarid grasslands.

Published

2020

67. Searching for cover: soil enrichment and herbivore exclusion, not fire, enhance African savanna small‐mammal abundance

Author

Ryan L. Sensenig, David J. Augustine, Bradley J. Bergstrom, and Truman P. Young

Subjects

0106 biological sciences, Herbivore, Geography, Ecology, Abundance (ecology), 010604 marine biology & hydrobiology, Grazing, Cover (algebra), Small mammal, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics

Published

2018

68. Using APAR to Predict Aboveground Plant Productivity in Semi-Arid Rangelands: Spatial and Temporal Relationships Differ

Author

Martín Durante, Jorge Gonzalo Nicolás Irisarri, Feng Gao, Rowan Gaffney, Justin D. Derner, Lauren M. Porensky, and David J. Augustine

Subjects

0106 biological sciences, plant composition, 010504 meteorology & atmospheric sciences, NDVI, RADIATION USE EFFICIENCY, temporal, ANPP, Biomasa, Ganadería, Atmospheric sciences, 010603 evolutionary biology, 01 natural sciences, SPATIAL, Normalized Difference Vegetation Index, LANDSAT, Semiarid Zones, Abundance (ecology), Sensores, Sensores Remotos, Ecosystem, Biomass, lcsh:Science, 0105 earth and related environmental sciences, Zona Semiárida, Biomass (ecology), radiation use efficiency, biomass, Sensors, Primary production, Regression analysis, spatial, MODIS, Producción Animal y Lechería, Biomasa sobre el Suelo, PLANT COMPOSITION, purl.org/becyt/ford/4.2 [https], Photosynthetically active radiation, CIENCIAS AGRÍCOLAS, Aboveground Net Primary Production, General Earth and Planetary Sciences, Environmental science, TEMPORAL, Rangelands, Spatial variability, lcsh:Q, Above-Ground Biomass, purl.org/becyt/ford/4 [https], Tierras de Pastos

Abstract

Monitoring of aboveground net primary production (ANPP) is critical for effective management of rangeland ecosystems but is problematic due to the vast extent of rangelands globally, and the high costs of ground-based measurements. Remote sensing of absorbed photosynthetically active radiation (APAR) can be used to predict ANPP, potentially offering an alternative means of quantifying ANPP at both high temporal and spatial resolution across broad spatial extents. The relationship between ANPP and APAR has often been quantified based on either spatial variation across a broad region or temporal variation at a location over time, but rarely both. Here we assess: (i) if the relationship between ANPP and APAR is consistent when evaluated across time and space; (ii) potential factors driving differences between temporal versus spatial models, and (iii) the magnitude of potential errors relating to space for time transformations in quantifying productivity. Using two complimentary ANPP datasets and remotely sensed data derived from MODIS and a Landsat/MODIS fusion data product, we find that slopes of spatial models are generally greater than slopes of temporal models. The abundance of plant species with different structural attributes, specifically the abundance of C4 shortgrasses with prostrate canopies versus taller, more productive C3 species with more vertically complex canopies, tended to vary more dramatically in space than over time. This difference in spatial versus temporal variation in these key plant functional groups appears to be the primary driver of differences in slopes among regression models. While the individual models revealed strong relationships between ANPP to APAR, the use of temporal models to predict variation in space (or vice versa) can increase error in remotely sensed predictions of ANPP. Fil: Gaffney, Rowan. United States Department of Agriculture. Agricultural Research Service; Argentina Fil: Porensky, Lauren. United States Department of Agriculture. Agricultural Research Service; Argentina Fil: Gao, Feng. United States Department of Agriculture. Agricultural Research Service; Argentina Fil: Irisarri, Jorge Gonzalo Nicolás. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura. Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura; Argentina Fil: Durante, Martín. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Parque Centenario. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura. Universidad de Buenos Aires. Facultad de Agronomía. Instituto de Investigaciones Fisiológicas y Ecológicas Vinculadas a la Agricultura; Argentina. Instituto Nacional de Tecnología Agropecuaria. Centro Regional Entre Ríos. Estación Experimental Agropecuaria Concepción del Uruguay; Argentina Fil: Derner, Justin. United States Department of Agriculture. Agricultural Research Service; Argentina Fil: Augustine, David. United States Department of Agriculture. Agricultural Research Service; Argentina

Published

2018

69. Quantifying characteristic growth dynamics in a semi-arid grassland ecosystem by predicting short-term NDVI phenology from daily rainfall: a simple four parameter coupled-reservoir model

Author

Justin D. Derner, David J. Augustine, and John F. Hermance

Subjects

Hydrology, geography, geography.geographical_feature_category, Steppe, Phenology, General Earth and Planetary Sciences, Environmental science, Growing season, Precipitation, Arid, Grassland, Normalized Difference Vegetation Index, Transpiration

Abstract

Predicting impacts on phenology of the magnitude and seasonal timing of rainfall pulses in water-limited grassland ecosystems concerns ecologists, climate scientists, hydrologists, and a variety of stakeholders. This report describes a simple, effective procedure to emulate the seasonal response of grassland biomass, represented by the satellite-based normalized difference vegetation index NDVI, to daily rainfall. The application is a straightforward adaptation of a staged linear reservoir that simulates the pulse-like entry of rainwater into the soil and its redistribution as soil moisture, the uptake of water by plant roots, short-term biomass development, followed by the subsequent transpiration of water through foliage. The algorithm precludes the need for detailed, site specific information on soil moisture dynamics, plant species, and the local hydroclimate, while providing a direct link between discrete rainfall events and consequential biomass responses throughout the growing season. We applied the algorithm using rainfall data from the Central Plains Experimental Range to predict vegetation growth dynamics in the semi-arid shortgrass steppe of North America. The mean annual rainfall is 342 mm, which is strongly bifurcated into a dominantly ‘wet’ season, where during the three wettest months May, June and July the mean monthly rainfall is approximately 55 mm month−1; and a ‘dry’ season, where during the three driest months December, January and February, the mean monthly rainfall is approximately 7 mm month−1. NDVI data from the Moderate Resolution Imaging Spectroradiometer MODIS MOD13Q1 16 day, 250 m × 250 m product were used as a proxy for grassland phenology for the period-of-record 2000–2013. Allowing for temporal changes in basic parameters of the response function over the growing season, the predicted response of the model tracks the observed NDVI metric with correlation coefficients exceeding 0.92. A two-stage series reservoir is preferred, whereby the characteristic time for transfer of a rainfall event to the peak response of NDVI decreases from 24 days early growing season to 12 days late growing season, while the efficiency of a given volume of rainfall to produce a correspondingly similar amount of aboveground biomass decreases by a factor of 40% from April to October. Behaviours of the characteristic time of greenup and loss of rainfall efficiency with progression of the growing season are consistent with physiological traits of cool-season C3 grasses versus warm-season C4 grasses, and with prior research suggesting that early season production by C3 grasses is more responsive to a given amount of precipitation than mid-summer growth of C4 shortgrasses. Our model explains >90% of seasonal biomass dynamics. We ascribe a systematic underprediction of observed early season greenup following drought years to a lagged or ‘legacy’ effect, as soil inorganic nitrogen, accumulated during drought, becomes available for future plant uptake.

Published

2015

70. Recovery of African wild dogs suppresses prey but does not trigger a trophic cascade

Author

David J. Augustine, Rosie Woodroffe, Jacob R. Goheen, Robert M. Pringle, Todd M. Palmer, Adam T. Ford, Timothy G. O'Brien, and Margaret F. Kinnaird

Subjects

education.field_of_study, Herbivore, Food Chain, biology, Ecology, Population Dynamics, Population, Foraging, biology.organism_classification, Kenya, Models, Biological, Food web, Trees, Predation, Lycaon pictus, Antelopes, Animals, education, Trophic cascade, Ecology, Evolution, Behavior and Systematics, Canidae, Environmental Monitoring, Trophic level

Abstract

Increasingly, the restoration of large carnivores is proposed as a means through which to restore community structure and ecosystem function via trophic cascades. After a decades-long absence, African wild dogs (Lycaon pictus) recolonized the Laikipia Plateau in central Kenya, which we hypothesized would trigger a trophic cascade via suppression of their primary prey (dik-dik, Madoqua guentheri ) and the subsequent relaxation of browsing pressure on trees. We tested the trophic-cascade hypothesis using (1) a 14-year time series of wild dog abundance; (2) surveys of dik-dik population densities conducted before and after wild dog recovery; and (3) two separate, replicated, herbivore-exclusion experiments initiated before and after wild dog recovery. The dik-dik population declined by 33% following wild dog recovery, which is best explained by wild dog predation. Dik-dik browsing suppressed tree abundance, but the strength of suppression did not differ between before and after wild dog recovery. Despite strong, top-down limitation between adjacent trophic levels (carnivore- herbivore and herbivore-plant), a trophic cascade did not occur, possibly because of a time lag in indirect effects, variation in rainfall, and foraging by herbivores other than dik-dik. Our ability to reject the trophic-cascade hypothesis required two important approaches: (1) temporally replicated herbivore exclusions, separately established before and after wild dog recovery; and (2) evaluating multiple drivers of variation in the abundance of dik-dik and trees. While the restoration of large carnivores is often a conservation priority, our results suggest that indirect effects are mediated by ecological context, and that trophic cascades are not a foregone conclusion of such recoveries.

Published

2015

71. Patch-burn grazing management, vegetation heterogeneity, and avian responses in a semi-arid grassland

Author

Justin D. Derner and David J. Augustine

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Steppe, Sturnella neglecta, biology.organism_classification, Charadrius, Pasture, Grassland, Meadowlark, Grazing, General Earth and Planetary Sciences, Ecology, Evolution, Behavior and Systematics, Ammodramus, Nature and Landscape Conservation, General Environmental Science

Abstract

Anthropogenic changes to disturbance regimes in grasslands, and associated homogenization of vegetation structure, have been implicated as factors contributing to declines in populations of grassland birds in North America. We examined the influence of patch-burn grazing management, which employs spatiotemporal interactions between fire and livestock grazing guided by historical disturbance patterns, on vegetation structure and bird abundance in shortgrass steppe in northeastern Colorado, USA. All study pastures were grazed by cattle at moderate stocking rates from May to October each year. In the patch-burn treatment, we burned 25% of each pasture in autumn (Oct or Nov) each year during 2007–2010; control pastures were not burned. Patch-burn grazing management increased vegetation heterogeneity by generating short (

Published

2015

72. Patch Burn Grazing Management in a Semiarid Grassland: Consequences for Pronghorn, Plains Pricklypear, and Wind Erosion

Author

Justin D. Derner and David J. Augustine

Subjects

geography, Opuntia polyacantha, Herbivore, geography.geographical_feature_category, Ecology, biology, Agroforestry, Steppe, Antilocapra americana, Management, Monitoring, Policy and Law, biology.organism_classification, Grassland, Agronomy, biology.animal, Grazing, Environmental science, Animal Science and Zoology, Conservation grazing, Nature and Landscape Conservation, Wildlife conservation

Abstract

Management strategies that allow for spatiotemporal interactions between fire and herbivores can potentially achieve multiple management goals related to livestock production and wildlife conservation, but little is known about such interactions in semiarid grasslands where fire has traditionally been viewed as having few management applications. We studied patch burn grazing management in the shortgrass steppe of northeastern Colorado, comparing unburned pastures to pastures where 25% of the area was burned in October or November each year over 4 years. Our objective was to examine the interactive effects of patch burns and the subsequent response by pronghorn (Antilocapra americana) on plains pricklypear (Opuntia polyacantha) and wind erosion rates. We monitored abundance of plains pricklypear and wind erosion rates throughout the experiment and quantified seasonal pronghorn densities and postburn damage to plains pricklypear cladodes during the latter 2 years of the study. Pronghorn density was 26 times greater in winter and 7 times greater in spring on patch burns compared with unburned pastures. By late winter, densities of bitten or uprooted plains pricklypear cladodes were five times greater on patch burns compared with unburned pastures. Patch burns, as well as the subsequent response of pronghorn, reduced plains pricklypear density by 54–71% during the first year after the burns, and density remained suppressed for up to 6 years after burns. Wind erosion rates on patch burns were greater compared with unburned pastures but were two orders of magnitude lower than rates measured on fallow croplands in the region. Autumn patch burns can be a valuable means to suppress plains pricklypear and thereby increase grass available for livestock consumption in the shortgrass steppe. These outcomes can be achieved without increasing wind erosion in a manner that threatens long-term soil sustainability and without negative consequences for livestock weight gains.

Published

2015

73. Elevated CO

Author

David J, Augustine, Dana M, Blumenthal, Tim L, Springer, Daniel R, LeCain, Stacey A, Gunter, and Justin D, Derner

Subjects

Wyoming, Nitrogen, Animals, Biomass, Herbivory, Carbon Dioxide, Cellulose, Poaceae, Grassland, Lignin

Abstract

Increasing atmospheric [CO

Published

2017

74. Testing for Thresholds in a Semiarid Grassland: The Influence of Prairie Dogs and Plague

Author

James K. Detling, Justin D. Derner, and David J. Augustine

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Perennial plant, Steppe, Prairie dog, Management, Monitoring, Policy and Law, biology.organism_classification, Grassland, Cynomys ludovicianus, biology.animal, Forb, Plant cover, Dominance (ecology), Animal Science and Zoology, Nature and Landscape Conservation

Abstract

State-and-transition models for semiarid grasslands in the North American Great Plains suggest that the presence of herbivorous black-tailed prairie dogs (Cynomys ludovicianus) on a site 1) creates a vegetation state characterized by increased dominance of annual forbs and unpalatable bunchgrasses and increased bare soil exposure and 2) requires long-term (> 40 yr) prairie dog removal to transition back to a vegetation state dominated by palatable perennial grasses. Here, we examine 1) how the recent history of prairie dog occupancy on a site (1–10 yr) influences the magnitude of prairie dog effects on vegetation composition and 2) how occupancy history affects vegetation dynamics following extirpation of prairie dogs. We used a natural experiment in the shortgrass steppe of northeastern Colorado, USA, where prairie dogs were extirpated from multiple sites during an outbreak of epizootic plague. On sites occupied by prairie dogs for 1–4 yr prior to extirpation, plant cover and composition recovered to conditions similar to unoccupied sites within a single growing season. Larger reductions in perennial C4 grasses occurred on sites occupied for the prior 7–10 yr compared to sites with shorter occupancy histories (

Published

2014

75. Distribution and nesting success of ferruginous hawks and Swainson's hawks on an agricultural landscape in the Great Plains

Author

David J. Augustine, Gary D. Schnell, and David A. Wiggins

Subjects

geography.geographical_feature_category, biology, Reproductive success, Range (biology), Ecology, Buteo, biology.organism_classification, Grassland, Geography, Habitat, Nest, Artemisia filifolia, Conservation Reserve Program, Ecology, Evolution, Behavior and Systematics

Abstract

We studied land-cover associations at nest sites and reproductive success of two Buteo species of conservation concern on the southern Great Plains, USA. The study area was in Cimarron County, Oklahoma, where land use is dominated by row-crop agriculture, livestock grazing, and grasslands enrolled in the Conservation Reserve Program (CRP). Ferruginous hawks (B. regalis) were uncommon and nested primarily in and around the Rita Blanca National Grassland. Swainson's hawks (B. swainsoni) were common and nested throughout the study area. Territories of ferruginous hawks contained more sandsage (Artemisia filifolia) habitat and less cropland and CRP lands than random sites, whereas territories of Swainson's hawks mirrored proportions of available landcover. Our results suggest that proportion of nearby sandsage habitat is an important factor in determining Swainson's hawk reproductive success. In addition, ferruginous hawk nest sites were located in areas that contained significantly more sandsage habitat than randomly selected sites in the study area. Nest-site availability may have constrained the distribution of buteos in our study area and is probably a major factor limiting nesting density of ferruginous hawks. Ferruginous hawks typically nest on man-made platforms (e.g., nest platforms and windmills) that in the study area were most common in and around the Rita Blanca National Grassland. Our results suggest that conversion of native grasslands to cropland may have negative consequences for ferruginous and Swainson's hawks. This relationship has been previously demonstrated in several studies of ferruginous hawks, but not for Swainson's hawks. In particular, loss of sandsage habitat on the southern Great Plains may have contributed to range declines in ferruginous hawks and decreased breeding success for Swainson's hawks.

Published

2014

76. Characteristics of Burns Conducted under Modified Prescriptions to Mitigate Limited Fuels in a Semi-Arid Grassland

Author

Justin D. Derner, David P. Smith, and David J. Augustine

Subjects

Hydrology, geography, geography.geographical_feature_category, biology, Steppe, Prescribed burn, Forestry, Gutierrezia sarothrae, Environmental Science (miscellaneous), biology.organism_classification, Arid, Grassland, Habitat, Bouteloua gracilis, Environmental science, Relative humidity, Ecology, Evolution, Behavior and Systematics

Abstract

In semi-arid grasslands of the North American Great Plains, fire has traditionally been viewed as having few management applications, and quantitative measurements of fire behavior in the low fuel loads characteristic of this region are lacking. More recently, land managers have recognized potential applications of prescribed fire to control undesirable plant species and to manage habitat for wildlife in this region. Working in the shortgrass steppe of northeastern Colorado over a 7-year period, we quantified peak temperatures, heating duration, and heat dosage produced near ground level during prescribed burns conducted under a wide range of fuel loads and weather conditions. We use an information theoretic approach to develop models that predict peak temperature and heat dosage as a function of weather parameters and fuel loads. Under the weather conditions that we examined, successful burns (>80 % of target area burnt) occurred with fuel loads varying from 350 kg ha−1 to 1175 kg ha−1, while burns with fuel loads

Published

2014

77. Prescribed fire, soil inorganic nitrogen dynamics, and plant responses in a semiarid grassland

Author

Paul E. Brewer, Dana M. Blumenthal, Joseph C. von Fischer, Justin D. Derner, and David J. Augustine

Subjects

geography, geography.geographical_feature_category, Ecology, Steppe, Prescribed burn, fungi, food and beverages, Growing season, complex mixtures, Plant ecology, Agronomy, Soil water, Environmental science, Annual plant, Water content, Nitrogen cycle, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

In arid and semiarid ecosystems, fire can potentially affect ecosystem dynamics through changes in soil moisture, temperature, and nitrogen cycling, as well as through direct effects on plant meristem mortality. We examined effects of annual and triennial prescribed fires conducted in early spring on soil moisture, temperature, and N, plant growth, and plant N content in semiarid shortgrass steppe. Annual burning increased soil inorganic N availability throughout the growing season, which was associated with increased soil temperature and a reduction in aboveground N in C3 plants. Furthermore, the increase in soil inorganic N pools with annual burning was modest and did not facilitate success of ruderal species. Negative fire effects on C3 plant production could be due to increased soil temperature, reduced soil moisture, or direct negative effects on C3 plant meristems, although fuel loads and fire temperatures were low relative to other grasslands. Triennial burning had intermediate effects on N availability and C3 plant production compared to annual burning and unburned controls. Results show that prescribed burns can be used in the management of this semiarid grassland without facilitating annual plant invasion, but excessively frequent burning can reduce production of C3 plants.

Published

2014

78. Mountain plover nest survival in relation to prairie dog and fire dynamics in shortgrass steppe

Author

David J. Augustine and Susan K. Skagen

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Steppe, Prescribed burn, Plover, Prairie dog, biology.organism_classification, medicine.disease, Charadrius, Sylvatic plague, Cynomys ludovicianus, Nest, biology.animal, medicine, General Earth and Planetary Sciences, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Abstract

Disturbed xeric grasslands with short, sparse vegetation provide breeding habitat for mountain plovers (Charadrius montanus) across the western Great Plains. Maintaining local disturbance regimes through prairie dog conservation and prescribed fire may contribute to the sustainability of recently declining mountain plover populations, but these management approaches can be controversial. We estimated habitat- specific mountain plover densities and nest survival rates on black-tailed prairie dog (Cynomys ludovicianus) colonies and burns in the shortgrass steppe of northeastern Colorado. Mountain plover densities were similar on prairie dog colonies (5.9birds/km 2 ; 95% CI ¼4.7-7.4) and sites burned during the preceding dormant season (6.7birds/km 2 ; 95% CI ¼4.6-9.6), whereas the 29-day nest survival rate was greater on prairie dog colonies (0.81 in 2011 and 0.39 in 2012) compared to the burned sites (0.64 in 2011 and 0.17 in 2012). Reduced nest survival in 2012 compared to 2011 was associated with higher maximum daily temperatures in 2012, consistent with a previous weather-based model of mountain plover nest survival in the southern Great Plains. Measurements of mountain plover density relative to time since disturbance showed that removal of prairie dog disturbance by sylvatic plague reduced mountain plover density by 70% relative to active prairie dog colonies after 1 year. Plover densities declined at a similar rate (by 78%) at burned sites between the first and second post-burn growing season. Results indicate that black-tailed prairie dog colonies are a particularly important nesting habitat for mountain plovers in the southern Great Plains. In addition, findings suggest that prescribed burning can be a valuable means to create nesting habitat in landscapes where other types ofdisturbances (such as prairie dog colonies) are limited in distribution and size. Published 2014. This article is a U.S. Government work and is in the public domain in the USA.

Published

2014

79. Validation of DNA metabarcoding of fecal samples using cattle fed known rations

Author

S. L. Lake, T. Jorns, Travis Smith, Justin D. Derner, David J. Augustine, John Derek Scasta, and Jessica L. Windh

Subjects

0303 health sciences, Setaria, biology, 030309 nutrition & dietetics, 0402 animal and dairy science, food and beverages, Pascopyrum, Forage, 04 agricultural and veterinary sciences, biology.organism_classification, 040201 dairy & animal science, Cattle feeding, Phleum, 03 medical and health sciences, Animal science, Fodder, Hay, Animal Science and Zoology, Alopecurus arundinaceus

Abstract

Diet composition of free-roaming animals has been persistently difficult to quantify. Fecal DNA (fDNA) metabarcoding is an emerging novel technology to reconstruct botanical composition of diets. Validation studies comparing fDNA metabarcodion to fed diets are lacking. A blind 6-week feeding study using 5 heifers (416–527 kg) fed different diets weekly with fecal samples collected from individuals 7 days after the introduction of each new diet was conducted. Diets were: (1) C3 grass hay (creeping meadow foxtail (Alopecurus arundinaceus)), (2) C4 grass hay (foxtail millet (Setaria italica), (3) C3 grass hay + C4 grass hay + alfalfa hay (Medicago sativa) (equal 1/3 proportions dry matter, 17.0%, 30.5%, and 52.5% by crude protein contribution, respectively), (4) C3 grass hay + C4 grass hay + alfalfa hay (equal proportions) + minor component of Wyoming big sagebrush (Artemisia tridentata ssp. wyomingensis) leaves (fed at 25 grams per heifer per day equal to 0.29% by dry matter contribution; crude protein content unknown), (5) alfalfa hay + minor components of crested wheatgrass (Agropyron cristatum), western wheatgrass (Pascopyrum smithii), and blue grama (Bouteloua gracilis) that included steams, leaves, and seed heads (varying proportions by dry matter ranging from 0.02 to 0.15% but 0.05%, 0.04%, and 0.01% by crude protein contribution), and (6) alfalfa hay. Single species diets were fed ad libitum. Diets with multiple forage species were fed at metabolic weight-based amounts with minor diet components introduced 2-3 days after major diet components. At the species level, fed diets and fDNA metabarcoding diets were dissimilar due to misidentification of major C3 and C4 diet components. For C3, A. arundinaceus was under the same Operational Taxonomic Unit (OTU) as Phleum pratense (not present in the C3 sourced hay), so blind identification was initially wrong. For C4, S. italica was identified as Setaria palmifolia, which does not grow in the region. Microscopic evaluation of seeds for both misidentifications verified the correct species identification and the fDNA error. Minor dietary components were detected in only 1 of 5 heifers for all species. Increasing the utility of fDNA metabarcoding for accurately determining the diet composition of free-roaming animals will necessitate: 1) improving the reference library of voucher species specimens, 2) understanding by technical and scientific staff that multiple species may be attributed to the same OTU, and 3) greater verification of fDNA metabarcoding results using field-derived plant composition data, especially in rangeland settings where plant diversity can be intrinsically high.

Published

2019

80. Controls over the strength and timing of fire-grazer interactions in a semi-arid rangeland

Author

David J. Augustine and Justin D. Derner

Subjects

Herbivore, Ecology, Grazing, Environmental science, Growing season, Ecosystem, Vegetation, Rangeland, Arid, Spatial heterogeneity

Abstract

Summary 1. The degree to which large herbivores select and forage within recently burned areas is a key driver of vegetation heterogeneity in rangeland ecosystems. However, few studies have quantified the strength and timing of herbivore selection for burned areas or examined how selection strength varies among ecosystems differing in precipitation and primary productivity. 2. We conducted a 4-year patch-burning experiment in semi-arid rangeland of Colorado, USA, where 25% of the area available to cattle was burned each year and burned patches were shifted annually. We used GPS collars with activity sensors to quantify the distribution of free-ranging cattle at a high temporal resolution (5-min intervals) during the growing season each year. We used a classification tree model to discriminate between cattle grazing vs. non-grazing locations, which significantly increased precision in quantifying burn selection strength. We fit generalized linear models predicting the frequency of cattle use of a given location within each study area and month, enabling comparisons between the relative influence of burns and topography on grazing distribution. 3. Across multiple growing seasons, cattle selectively spent 31% of grazing time on recently burnt areas, which comprised 25% of the landscape; this selection strength was half as strong as that documented in mesic rangeland. 4. At a monthly temporal scale, strong cattle selection for burned areas occurred during periods of rapid vegetation growth regardless of when during the growing season this greening occurred. Outside these intervals, burn selection strength was inconsistent and cattle grazing distribution was primarily influenced by topography. Thus, the relative importance of fire and topography in controlling grazer distribution was temporally contingent upon the timing and size of precipitation pulses. 5. Synthesis and applications. Spatiotemporal interactions between fire and herbivores are a consistent feature of both semi-arid and mesic rangelands, with interaction strength varying across gradients of precipitation and primary productivity. Management of semi-arid ecosystems to sustain ecological processes should include strategies that allow ungulate herbivores to shift their grazing distribution seasonally in response to fire, topoedaphic variation and precipitation patterns. Combined management of fire and grazing for conservation objectives can be consistent with, and even complementary to, livestock production goals.

Published

2013

81. Native ungulates of diverse body sizes collectively regulate long-term woody plant demography and structure of a semi-arid savanna

Author

Jayashree Ratnam, David J. Augustine, and Mahesh Sankaran

Subjects

Biomass (ecology), Herbivore, Ecology, food and beverages, Species diversity, Plant community, Plant Science, Vegetation, Biology, biology.organism_classification, Dik-dik, Rangeland, Ecology, Evolution, Behavior and Systematics, Demography, Woody plant

Abstract

Summary 1. Large mammalian herbivores are well recognized to play important roles in regulating woody cover and biomass in savannas, but the extent to which browsing ungulates are capable of regulating woody populations in the absence of other disturbances such as fire is unclear. Moreover, the degree to which browser effects on savannas operate through effects on woody plant recruitment vs. mortality has rarely been examined. 2. We conducted a 10-year, replicated herbivore exclusion experiment in a semi-arid savanna in East Africa (mean annual rainfall = 514 mm), where fires have been actively suppressed for decades. Browsers dramatically influenced recruitment, growth and mortality of all size classes of woody vegetation. A decade of herbivore exclusion resulted in a sevenfold increase in recruitment, a 2.5-fold decrease in mortality and a threefold increase in woody biomass inside exclosures, while biomass outside exclosures remained relatively unchanged. 3. At the plant community level, extensive browsing of seedlings by small-bodied ungulates suppressed woody recruitment in this semi-arid system, generating a ‘browsing trap’ comparable to the ‘fire trap’ reported for mesic systems. Browsing by large- and medium-bodied ungulates reduced both growth and survival of individuals in larger size classes. 4. At the plant species level, browser impacts were variable. Although browsers negatively influenced recruitment of all species, they had little to no impact on the mortality of some dominant species, resulting in a longterm, browser-driven shift in woody species composition that was largely mediated via their differential effects on plant mortality rates rather than recruitment. 5. Synthesis. Our results demonstrate unequivocally that, even in the absence of fire, native browsing ungulates can exert dramatic ‘top-down’ controls in semi-arid savannas, influencing all aspects of woody plant demography. Besides suppressing woody plant recruitment, browsers can also have substantial cumulative long-term impacts on growth and mortality rates of woody plants, including adults, which can differ between species in ways that fundamentally alter the structure and function of woody vegetation. In semi-arid rangelands, intact communities of native browsing ungulates thus provide a critical ecosystem service by regulating woody cover, and their removal (or extinction) from these systems can lead to rapid woody encroachment.

Published

2013

82. Competition and facilitation between a native and a domestic herbivore: trade-offs between forage quantity and quality

Author

David J. Augustine and Tim L. Springer

Subjects

Herbivore, Time Factors, Ecology, biology, Animal feed, Population Dynamics, Foraging, Sciuridae, Introduced species, Prairie dog, biology.organism_classification, Animal Feed, Models, Biological, United States, Cynomys ludovicianus, Agronomy, biology.animal, Grazing, Animals, Cattle, Herbivory, Seasons, Rangeland

Abstract

Potential competition between native and domestic herbivores is a major consideration influencing the management and conservation of native herbivores in rangeland ecosystems. In grasslands of the North American Great Plains, black-tailed prairie dogs (Cynomys ludovicianus) are widely viewed as competitors with cattle but are also important for biodiversity conservation due to their role in creating habitat for other native species. We examined spatiotemporal variation in prairie dog effects on growing-season forage quality and quantity using measurements from three colony complexes in Colorado and South Dakota and from a previous study of a fourth complex in Montana. At two complexes experiencing below-average precipitation, forage availability both on and off colonies was so low (12-54 g/ m 2 ) that daily forage intake rates of cattle were likely constrained by instantaneous intake rates and daily foraging time. Under these dry conditions, prairie dogs (1) substantially reduced forage availability, thus further limiting cattle daily intake rates, and (2) had either no or a small positive effect on forage digestibility. Under such conditions, prairie dogs are likely to compete with cattle in direct proportion to their abundance. For two complexes experiencing above-average precipitation, forage quantity on and off colonies (77-208 g/m 2 ) was sufficient for daily forage intake of cattle to be limited by digestion rather than instantaneous forage intake. At one complex where prairie dogs enhanced forage digestibility and (N) while having no effect on forage quantity, prairie dogs are predicted to facilitate cattle mass gains regardless of prairie dog abundance. At the second complex where prairie dogs enhanced digestibility and (N) but reduced forage quantity, effects on cattle can vary from competition to facilitation depending on prairie dog abundance. Our findings show that the high spatiotemporal variation in vegetation dynamics characteristic of semiarid grasslands is paralleled by variability in the magnitude of competition between native and domestic grazers. Competitive interactions evident during dry periods may be partially or wholly offset by facilitation during periods when forage digestibility is enhanced and forage quantity does not limit the daily intake rate of cattle.

Published

2013

83. Disproportionate effects of non-colonial small herbivores on structure and diversity of grassland dominated by large herbivores

Author

Justin D. Derner, David J. Augustine, Daniel G. Milchunas, Salvador Rebollo, and Paul Stapp

Subjects

geography, Herbivore, geography.geographical_feature_category, Ecology, Species diversity, Plant community, Biology, Generalist and specialist species, biology.organism_classification, Grassland, Common species, Bouteloua gracilis, Species richness, Ecology, Evolution, Behavior and Systematics

Abstract

Th e response of semiarid grasslands to small, non-colonial herbivores has received little attention, focusing primarily on the eff ects of granivore assemblages on annual plant communities. We studied the long-term eff ects of both small and large herbivores on vegetation structure and species diversity of shortgrass steppe, a perennial semiarid grassland considered marginal habitat for small mammalian herbivores. We hypothesized that 1) large generalist herbivores would aff ect more abundant species and proportions of litter-bare ground-vegetation cover through non-selective herbivory, 2) small herbivores would aff ect less common species through selective but limited consumption, and 3) herbivore eff ects on plant richness would increase with increasing aboveground net primary production (ANPP). Plant community composition was assessed over a 14-year period in pastures grazed at moderate intensities by cattle and in exclosures for large (cattle) and large-plus-small herbivores (additional exclusion of rabbits and rodents). Exclusion of large herbivores aff ected litter and bare ground and basal cover of abundant, common and uncommon species. Additional exclusion of small herbivores did not aff ect uncommon components of the plant community, but had indirect eff ects on abundant species, decreased the cover of the dominant grass Bouteloua gracilis and total vegetation, and increased litter and species diversity. Th ere was no relationship between ANPP and the intensity of eff ects of either herbivore body size on richness. Exclusion of herbivores of both body sizes had complementary and additive eff ects which promoted changes in vegetation composition and physiognomy that were linked to increased abundance of tall and decreased abundance of short species. Our fi ndings show that small mammalian herbivores had disproportionately large eff ects on plant communities relative to their small consumption of biomass. Even in smallseeded perennial grasslands with a long history of intensive grazing by large herbivores, non-colonial small mammalian herbivores should be recognized as an important driver of grassland structure and diversity.

Published

2013

84. Associations of Grassland Bird Communities with Black-Tailed Prairie Dogs in the North American Great Plains

Author

David J. Augustine and Bruce W. Baker

Subjects

geography, geography.geographical_feature_category, Ecology, Keystone species, Ecology, Evolution, Behavior and Systematics, Grassland, Nature and Landscape Conservation, Spatial heterogeneity

Abstract

Colonial burrowing herbivores can modify vegetation structure, create belowground refugia, and generate landscape heterogeneity, thereby affecting the distribution and abundance of associated species. Black-tailed prairie dogs (Cynomys ludovicianus) are such a species, and they may strongly affect the abundance and composition of grassland bird communities. We examined how prairie dog colonies in the North American Great Plains affect bird species and community composition. Areas occupied by prairie dogs, characterized by low percent cover of grass, high percent cover of bare soil, and low vegetation height and density, supported a breeding bird community that differed substantially from surrounding areas that lacked prairie dogs. Bird communities on colony sites had significantly greater densities of large-bodied carnivores (Burrowing Owls [Athene cunicularia], Mountain Plovers, [Charadrius montanus], and Killdeer [Charadrius vociferus]) and omnivores consisting of Horned Larks (Eremophila alpestris) and McCown's Longspurs (Rhynchophanes mccownii) than bird communities off colony sites. Bird communities off colony sites were dominated by small-bodied insectivorous sparrows (Ammodramus spp.) and omnivorous Lark Buntings (Calamospiza melanocorys), Vesper Sparrows (Pooecetes gramineus), and Lark Sparrows (Chondestes grammacus). Densities of 3 species of conservation concern and 1 game species were significantly higher on colony sites than off colony sites, and the strength of prairie dog effects was consistent across the northern Great Plains. Vegetation modification by prairie dogs sustains a diverse suite of bird species in these grasslands. Collectively, our findings and those from previous studies show that areas in the North American Great Plains with prairie dog colonies support higher densities of at least 9 vertebrate species than sites without colonies. Prairie dogs affect habitat for these species through multiple pathways, including creation of belowground refugia, supply of prey for specialized predators, modification of vegetation structure within colonies, and increased landscape heterogeneity. Asociaciones de Comunidades de Aves de Pastizales con Perros de la Pradera en la Gran Llanura de Norte America Resumen Los herbivoros excavadores coloniales pueden modificar la estructura de la vegetacion, crear refugios subterraneos y generar heterogeneidad en el paisaje, por lo tanto afectan la distribucion y abundancia de especies asociadas. Los perros de la pradera (Cynomys ludovicianus) son una de esas especies, y pueden afectar significativamente la abundancia y composicion de comunidades de aves de pastizales. Examinamos como afectan las colonias de perros de la pradera a las especies de aves y la composicion de la comunidad en la Gran Llanura de Norte America. Las areas ocupadas por perros de la pradera, caracterizadas por un bajo porcentaje de cobertura de pasto, alto porcentaje de cobertura de suelo desnudo y baja altura y densidad de la vegetacion, soportaban una comunidad de aves que difirio sustancialmente en areas que no tenian perros de la pradera. Las comunidades de aves en sitios con colonias tuvieron significativamente mayores densidades de carnivoros de talla grande (Athene cunicularia,Charadrius montanusyCharadrius vociferus) y omnivoros (Eremophila alpestrisyRhynchophanes mccownii) que las comunidades de aves en sitios sin colonias. Las comunidades de aves en sitios sin colonias fueron dominadas por gorriones insectivoros de talla pequena (Ammodramus spp.) y omnivoros (Calamospiza melanocorys,Pooecetes gramineusyChondestes grammacus). Las densidades de 3 especies de preocupacion para la conservacion y una especie cinegetica fueron significativamente mayores en los sitios con colonias, y la fuerza de los efectos de los perros de la pradera fue consistente en el norte de Gran Llanura. La modificacion de la vegetacion por los perros de la pradera sostiene a un conjunto diverso de especies de aves estos pastizales. Colectivamente, nuestros resultados y los de estudios previos muestran que las areas con colonias de perros de la pradera en la Gran Llanura de Norte America soportan densidades mas altas de por lo menos 9 especies de vertebrados que en los sitios sin colonias. Los perros de la pradera afectan el habitat de esas especies por diferentes vias, incluyendo la creacion de refugios subterraneos, proveyendo presas para depredadores especializados, modificando la estructura de vegetacion en las colonias e incrementando la heterogeneidad del paisaje.

Published

2013

85. Spatial Redistribution of Nitrogen by Cattle in Semiarid Rangeland

Author

Daniel G. Milchunas, Justin D. Derner, and David J. Augustine

Subjects

Biomass (ecology), geography, geography.geographical_feature_category, Ecology, Forage, Management, Monitoring, Policy and Law, Ammonia volatilization from urea, Spatial distribution, Pasture, Agronomy, Grazing, Environmental science, Animal Science and Zoology, Rangeland, Nitrogen cycle, Nature and Landscape Conservation

Abstract

Nitrogen (N) availability can strongly influence forage quality and the capacity for semiarid rangelands to respond to increasing atmospheric CO2. Although many pathways of nitrogen input and loss from rangelands have been carefully quantified, cattlemediated N losses are often poorly understood. We used measurements of cattle N consumption rate, weight gains, and spatial distribution in shortgrass rangeland of northeastern Colorado to evaluate the influence of cattle on rangeland N balance. Specifically, we estimated annual rates of N loss via cattle weight gains and spatial redistribution of N into pasture corners and areas near water tanks, and used previous studies to calculate ammonia volatilization from urine patches. Using measurements of plant biomass and N content inside and outside grazing cages over 13 yr, we estimate that cattle stocked at 0.65 animal unit

Published

2013

86. Spatial vegetation patterns and neighborhood competition among woody plants in an East African savanna

Author

David J. Augustine, Jayashree Ratnam, Mahesh Sankaran, Niall P. Hanan, and Justin Dohn

Subjects

0106 biological sciences, Herbivore, 010504 meteorology & atmospheric sciences, Agroforestry, Ecology, media_common.quotation_subject, Vegetation, Herbaceous plant, Spatial distribution, 010603 evolutionary biology, 01 natural sciences, Grassland, Competition (biology), Trees, Geography, Africa, Spatial ecology, Biological dispersal, Longitudinal Studies, Ecology, Evolution, Behavior and Systematics, Ecosystem, 0105 earth and related environmental sciences, media_common, Woody plant

Abstract

The majority of research on savanna vegetation dynamics has focused on the coexistence of woody and herbaceous vegetation. Interactions among woody plants in savannas are relatively poorly understood. We present data from a 10-year longitudinal study of spatially explicit growth patterns of woody vegetation in an East African savanna following exclusion of large herbivores and in the absence of fire. We examined plant spatial patterns and quantified the degree of competition among woody individuals. Woody plants in this semi-arid savanna exhibit strongly clumped spatial distributions at scales of 1 – 5 m. However, analysis of woody plant growth rates relative to their conspecific and heterospecific neighbors revealed evidence for strong competitive interactions at neighborhood scales of up to 5 m for most woody plant species. Thus, woody plants were aggregated in clumps despite significantly decreased growth rates in close proximity to neighbors, indicating that the spatial distribution of woody plants in this region depends on dispersal and establishment processes rather than on competitive, density-dependent mortality. However, our documentation of suppressive effects of woody plants on neighbors also suggests a potentially important role for tree-tree competition in controlling vegetation structure and indicates that the balanced-competition hypothesis may contribute to well-known patterns in maximum tree cover across rainfall gradients in Africa. This article is protected by copyright. All rights reserved.

Published

2016

87. REVIEW: Strategic management of livestock to improve biodiversity conservation in African savannahs: a conceptual basis for wildlife-livestock coexistence

Author

David J. Augustine, Richard W.S. Fynn, Michael J. Peel, and Michel De Garine-Wichatitsky

Subjects

0106 biological sciences, Herbivore, Resource (biology), Ecology, 010604 marine biology & hydrobiology, Foraging, L01 - Élevage - Considérations générales, Biodiversity, Wildlife, Biology, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Habitat, Grazing, P01 - Conservation de la nature et ressources foncières

Abstract

Summary 1. African savannas are complex socio-ecological systems with diverse wild and domestic herbivore assemblages, which adapt spatially to intra- and interannual variation in forage quantity and quality, predation and disease risks. 2. As African savannas become increasingly fragmented by growing human populations and their associated ecological impacts, adaptive foraging options for wild and domestic herbivore populations are correspondingly limited, resulting in declining wildlife populations and impoverished pastoral societies. In addition, competition for grazing by expanding domestic herbivore populations threatens the viability of wild herbivore populations occupying similar grazing niches. 3. Conservation initiatives are further impacted by conflicts between wildlife and local communities of people who often receive little benefit from adjacent protected areas, creating conflict between the livelihood-orientated goals of communities and the conservation-oriented goals of the international community and those with vested interests in wildlife. Conservation strategies facilitating the alignment of these opposing goals of communities and conservationists are needed. 4. Synthesis and applications. Key to understanding facilitative and competitive interactions between wild and domestic herbivores are the concepts of niche differentiation and functional resource heterogeneity. Uncontrolled incursions of burgeoning domestic herbivore populations into protected areas (PAs) threaten the conservation of wild herbivore biodiversity. However, domestic herbivores can be managed to minimize competition with wild herbivores and to enhance habitat by maximizing grassland structural heterogeneity (greater adaptive foraging options), creation of nutrient hotspots in the landscape and facilitation of high-quality grazing. Ecosystem service benefits to communities through controlled access to grazing resources in PAs, associated with appropriate disease management, can provide a conservation payment to promote communities’ support of conservation of key wildlife migratory ranges and corridors outside PAs.

Published

2016

88. Opportunities for Increasing Utility of Models for Rangeland Management

Author

James C. Ascough, David J. Augustine, Lajpat R. Ahuja, and Justin D. Derner

Subjects

Ecology, Cost–benefit analysis, business.industry, Computer science, enterprise levels, Simulation modeling, Environmental resource management, Climate change, Management, Monitoring, Policy and Law, Environmental economics, decision making, experiential and experimental knowledge, Adaptive management, climate change, Goods and services, Rangeland management, object modeling systems, state-and-transition models, Experiential knowledge, Animal Science and Zoology, Risk assessment, business, Nature and Landscape Conservation

Abstract

A large number of empirical and mechanistic simulation models and decision support tools have been produced for rangelands. Collectively, these models have considerably increased our fundamental knowledge and understanding of the dynamics of ecosystem functions, processes, and structure. We explore three areas where models for rangeland management are often challenging for land managers and enterprise-level decision making: 1) coping with spatiotemporal and climatic variability in implementing scenario forecasting, risk assessments, and adaptive management; 2) addressing outputs of multiple ecosystem goods and services and determining whether they are synergistic or competitive; and 3) integrating experimental and experiential knowledge and observations into decision making. Increasing the utility of models for rangeland management remains a key frontier and a major research need for the modeling community and will be achieved less by further technical advances and model complexity and more by the use of existing topoedaphic databases, the capacity to readily incorporate new experimental and experiential knowledge, and the use of frameworks that facilitate outcome-based, adaptive decision making at the enterprise level with associated economic considerations. Opportunities exist for increasing the utility of models for decision making and adaptive rangeland management through better matching of model complexity with enterprise-level, decision-making goals. This could be accomplished by incorporating a fundamental understanding of herbivory, fire, and spatiotemporal interactions with weather patterns that affect multiple ecosystem functions. Most important, effective models would allow land managers in a changing and variable climate to 1) evaluate trade offs in producing multiple goods and services, 2) optimize the application of conservation practices spatially (comparing costs and benefits accrued across different timescales), and 3) incorporate manager capacity, including experience, skills, and labor input.

Published

2012

89. Aerial surveys adjusted by ground surveys to estimate area occupied by black-tailed prairie dog colonies

Author

Douglas H. Johnson, Richard P. Reading, David J. Augustine, Jack F. Cully, John G. Sidle, and Sterling D. Miller

Subjects

Black-tailed prairie dog, geography.geographical_feature_category, biology, Aerial survey, Ecology, Forestry, Prairie dog, biology.organism_classification, Burrow, language.human_language, Grassland, Cynomys ludovicianus, Geography, Abundance (ecology), biology.animal, Pawnee, language, Nature and Landscape Conservation

Abstract

Aerial surveys using line-intercept methods are one approach to estimate the extent of prairie dog colonies in a large geographic area. Although black-tailed prairie dogs (Cynomys ludovicianus) construct conspicuous mounds at burrow openings, aerial observers have difficulty discriminating between areas with burrows occupied by prairie dogs (colonies) versus areas of uninhabited burrows (uninhabited colony sites). Consequently, aerial line-intercept surveys may overestimate prairie dog colony extent unless adjusted by an on-the-ground inspection of a sample of intercepts. We compared aerial line-intercept surveys conducted over 2 National Grasslands in Colorado, USA, with independent ground-mapping of known black-tailed prairie dog colonies. Aerial line-intercepts adjusted by ground surveys using a single activity category adjustment overestimated colonies by ≥94% on the Comanche National Grassland and ≥58% on the Pawnee National Grassland. We present a ground-survey technique that involves 1) visiting on the ground a subset of aerial intercepts classified as occupied colonies plus a subset of intercepts classified as uninhabited colony sites, and 2) based on these ground observations, recording the proportion of each aerial intercept that intersects a colony and the proportion that intersects an uninhabited colony site. Where line-intercept techniques are applied to aerial surveys or remotely sensed imagery, this method can provide more accurate estimates of black-tailed prairie dog abundance and trends. Published 2012. This article is a U.S. Government work and is in the public domain in the USA.

Published

2012

90. Nitrogen cycling and water pulses in semiarid grasslands: are microbial and plant processes temporally asynchronous?

Author

David J. Augustine, Joseph C. von Fischer, Feike A. Dijkstra, and Paul E. Brewer

Subjects

Analysis of Variance, geography, Colorado, geography.geographical_feature_category, fungi, Water, food and beverages, Growing season, Mineralization (soil science), Nitrogen Cycle, Biology, Poaceae, Plant Roots, Grassland, Agronomy, Nitrification, Ecosystem, Biomass, Cycling, Water content, Nitrogen cycle, Plant Shoots, Soil Microbiology, Ecology, Evolution, Behavior and Systematics

Abstract

Precipitation pulses in arid ecosystems can lead to temporal asynchrony in microbial and plant processing of nitrogen (N) during drying/wetting cycles causing increased N loss. In contrast, more consistent availability of soil moisture in mesic ecosystems can synchronize microbial and plant processes during the growing season, thus minimizing N loss. We tested whether microbial N cycling is asynchronous with plant N uptake in a semiarid grassland. Using (15)N tracers, we compared rates of N cycling by microbes and N uptake by plants after water pulses of 1 and 2 cm to rates in control plots without a water pulse. Microbial N immobilization, gross N mineralization, and nitrification dramatically increased 1-3 days after the water pulses, with greatest responses after the 2-cm pulse. In contrast, plant N uptake increased more after the 1-cm than after the 2-cm pulse. Both microbial and plant responses reverted to control levels within 10 days, indicating that both microbial and plant responses were short lived. Thus, microbial and plant processes were temporally synchronous following a water pulse in this semiarid grassland, but the magnitude of the pulse substantially influenced whether plants or microbes were more effective in acquiring N. Furthermore, N loss increased after both small and large water pulses (as shown by a decrease in total (15)N recovery), indicating that changes in precipitation event sizes with future climate change could exacerbate N losses from semiarid ecosystems.

Published

2012

91. Ecosystem engineering varies spatially: a test of the vegetation modification paradigm for prairie dogs

Author

James A. Sedgwick, Bruce C. Lubow, David J. Augustine, and Bruce W. Baker

Subjects

Herbivore, geography.geographical_feature_category, biology, Steppe, Ecology, Prairie dog, Grassland, Ecosystem engineer, Shrubland, Geography, Habitat, biology.animal, Forb, Ecology, Evolution, Behavior and Systematics

Abstract

Colonial, burrowing herbivores can be engineers of grassland and shrubland ecosystems worldwide. Spatial variation in landscapes suggests caution when extrapolating single-place studies of single species, but lack of data and the need to generalize often leads to ‘ model system ’ thinking and application of results beyond appropriate statistical inference. Generalizations about the engineering eff ects of prairie dogs ( Cynomys sp.) developed largely from intensive study at a single complex of black-tailed prairie dogs C. ludovicianus in northern mixed prairie, but have been extrapolated to other ecoregions and prairie dog species in North America, and other colonial, burrowing herbivores. We tested the paradigm that prairie dogs decrease vegetation volume and the cover of grasses and tall shrubs, and increase bare ground and forb cover. We sampled vegetation on and off 279 colonies at 13 complexes of 3 prairie dog species widely distributed across 5 ecoregions in North America. Th e paradigm was generally supported at 7 black-tailed prairie dog complexes in northern mixed prairie, where vegetation volume, grass cover, and tall shrub cover were lower, and bare ground and forb cover were higher, on colonies than at paired off -colony sites. Outside the northern mixed prairie, all 3 prairie dog species consistently reduced vegetation volume, but their eff ects on cover of plant functional groups varied with prairie dog species and the grazing tolerance of dominant perennial grasses. White-tailed prairie dogs C. leucurus in sagebrush steppe did not reduce shrub cover, whereas black-tailed prairie dogs suppressed shrub cover at all complexes with tall shrubs in the surrounding habitat matrix. Black-tailed prairie dogs in shortgrass steppe and Gunnison ’ s prairie dogs C. gunnisoni in Colorado Plateau grassland both had relatively minor eff ects on grass cover, which may refl ect the dominance of grazing-tolerant shortgrasses at both complexes. Variation in modifi cation of vegetation structure may be understood in terms of the responses of diff erent dominant perennial grasses to intense defoliation and diff erences in foraging behavior among prairie dog species. Spatial variation in the engineering role of prairie dogs suggests spatial variation in their keystone role, and spatial variation in the roles of other ecosystem engineers. Th us, ecosystem engineering can have a spatial component not evident from single-place studies.

Published

2012

92. Disturbance regimes and mountain plover habitat in shortgrass steppe: Large herbivore grazing does not substitute for prairie dog grazing or fire

Author

Justin D. Derner and David J. Augustine

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Steppe, Plover, Prescribed burn, Vegetation, Prairie dog, biology.organism_classification, Grassland, Cynomys ludovicianus, biology.animal, Grazing, General Earth and Planetary Sciences, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Abstract

Restoring historical disturbance regimes to enhance habitat for grassland birds can conflict with livestock production goals and has been controversial because of uncertainty in the frequency and pattern of different disturbances prior to European settlement. We studied nesting habitat for the mountain plover (Charadrius montanus) in relation to prescribed fire, grazing by large herbivores (cattle), and grazing by black- tailed prairie dogs (Cynomys ludovicianus) in the shortgrass steppe of northeastern Colorado. Breeding mountain plovers primarily occurred on black-tailed prairie dog colonies or areas burned during the previous dormant season. Vegetation surrounding mountain plover nests and foraging locations was characterized by a fine-scale mosaic of prostrate ( 35% bare soil in a given square meter, with this fine-scale pattern distributed over a broad (>100-m radius) area. Mountain plovers rarely occupied grassland lacking prairie dogs or recent fire, but those that did selected sites with similar vegetation height and bare soil exposure as sites on burns and prairie dog colonies. Vegetation structure at mountain plover-occupied sites was also similar to random sites on burns and prairie dog colonies, but differed substantially from sites managed only with cattle. Intensive cattle grazing at twice the recommended stocking rate during spring (Mar-May) or summer (May-Oct) for 6 years produced significantly less bare soil than burns and prairie dog colonies, particularly following years with average or above-average precipitation. Thus, intensive cattle grazing did not substitute for prairie dog grazing or fire in terms of effects on vegetation structure and mountain plover habitat. Both prescribed burning and increased size and distribution of black- tailed prairie dog colonies appear to be effective and complementary means to manage for mountain plover breeding habitat in shortgrass steppe. Provision of mountain plover habitat has tradeoffs with traditional management for livestock production. Thus, managers need to clearly define desired outcomes for manage- ment to provide multiple ecosystem goods and services. 2012 The Wildlife Society.

Published

2012

93. Grazing Intensity and Spatial Heterogeneity in Bare Soil in a Grazing-Resistant Grassland

Author

Justin D. Derner, D. Terrance Booth, David J. Augustine, and Samuel E. Cox

Subjects

Topographic Wetness Index, geography, geography.geographical_feature_category, Ecology, Steppe, Management, Monitoring, Policy and Law, Grassland, Spatial heterogeneity, Stocking, Agronomy, Grazing, Spatial ecology, Environmental science, Animal Science and Zoology, Spatial analysis, Nature and Landscape Conservation

Abstract

We used very large scale aerial (VLSA) photography to quantify spatial patterns in bare soil in the northeastern Colorado shortgrass steppe. Using three pairs of pastures stocked at moderate (0.6 animal unit months lAUM] · ha -1 ) versus very heavy (1.2 AUM · ha -1 ) rates, we detected greater bare soil under very heavy (mean = 22.5%) versus moderate stocking (mean = 13.5%; P = 0.053) and a lower coefficient of variation across pastures under very heavy (0.48) versus moderate stocking (0.75; P = 0.032). Bare soil exhibited significant positive spatial autocorrelation across distances of 60–120 m under moderate stocking (Moran's I = 0.14), while patchiness at this scale was eliminated under very heavy grazing ( I = -0.05). Across distances of 120–480 m, we observed no spatial autocorrelation with either stocking rate. Spatial autocorrelation was greatest at a separation distance of 2 m ( I = 0.48–0.58) but was unaffected by stocking rate at this scale. Thus, very heavy grazing did not increase spatial autocorrelation in bare soil across scales of 2–480 m. Means and variability in the distribution of bare soil were not influenced by ecological site. Bare soil increased primarily at the scale of individual plant clusters through both increases in the density of small (2–20 cm) bare patch intercepts and increases in the frequency of bare patch intercepts of 20–60 cm (rather than s 20 cm). Our approach demonstrates the utility of VLSA for analyzing interactions between grazing and other landscape features and highlights the importance of spatially explicit sampling across broad scales (pastures) while testing for potential shifts in patchiness of bare soil at the scale of plant interspaces.

Published

2012

94. Grazing intensity differentially regulates ANPP response to precipitation in North American semiarid grasslands

Author

Justin L. Reeves, Justin D. Derner, Lauren M. Porensky, Kevin E. Mueller, David J. Augustine, and J. Gonzalo N. Irisarri

Subjects

0106 biological sciences, Wyoming, Colorado, Livestock, 010504 meteorology & atmospheric sciences, Steppe, Rain, Graminoid, Poaceae, 010603 evolutionary biology, 01 natural sciences, Grazing, Animals, Precipitation, Animal Husbandry, Relative species abundance, 0105 earth and related environmental sciences, Biomass (ecology), geography, geography.geographical_feature_category, Ecology, Primary production, Feeding Behavior, Grassland, Light intensity, Environmental science

Abstract

Grazing intensity elicits changes in the composition of plant functional groups in both shortgrass steppe (SGS) and northern mixed-grass prairie (NMP) in North America. How these grazing intensity-induced changes control aboveground net primary production (ANPP) responses to precipitation remains a central open question, especially in light of predicted climate changes. Here, we evaluated effects of four levels (none, light, moderate, and heavy) of long-term (>30 yr) grazing intensity in SGS and NMP on: (1) ANPP; (2) precipitation-use efficiency (PUE, ANPP : precipitation); and (3) precipitation marginal response (PMR; slope of a linear regression model between ANPP and precipitation). We advance prior work by examining: (1) the consequences of a range of grazing intensities (more grazed vs. ungrazed); and (2) how grazing-induced changes in ANPP and PUE are related both to shifts in functional group composition and physiological responses within each functional group. Spring (April-June) precipitation, the primary determinant of ANPP, was only 12% higher in NMP than in SGS, yet ANPP and PUE were 25% higher. Doubling grazing intensity in SGS and nearly doubling it in NMP reduced ANPP and PUE by only 24% and 33%, respectively. Increased grazing intensity reduced C3 graminoid biomass and increased C4 grass biomass in both grasslands. Functional group shifts affected PUE through biomass reductions, as PUE was positively associated with the relative abundance of C3 species and negatively with C4 species across both grasslands. At the community level, PMR was similar between grasslands and unaffected by grazing intensity. However, PMR of C3 graminoids in SGS was eightfold higher in the ungrazed treatment than under any grazed level. In NMP, PMR of C3 graminoids was only reduced under heavy grazing intensity. Knowing the ecological consequences of grazing intensity provides valuable information for mitigation and adaptation strategies in response to predicted climate change. For example, moderate grazing (the recommended rate) in SGS would sequester the same amount of aboveground carbon as light grazing because ANPP was nearly the same. In contrast, reductions in grazing intensity in NMP from moderate to light intensity would increase the amount of aboveground carbon sequestrated by 25% because of increased ANPP.

Published

2015

95. Habitat selection by mountain plovers in shortgrass steppe

Author

David J. Augustine

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Steppe, Prescribed burn, Plover, Prairie dog, biology.organism_classification, Charadrius, Cynomys ludovicianus, biology.animal, General Earth and Planetary Sciences, Rangeland, Nesting season, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Abstract

Much of the breeding range for the mountain plover (Charadrius montanus) occurs in shortgrass steppe and mixed-grass prairie in the western Great Plains of North America. Studies of mountain plovers in shortgrass steppe during the 1970s and 1990s were focused in Weld County, Colorado, which was considered a key breeding area for the species. These studies, however, did not include habitats influenced by black-tailed prairie dogs (Cynomys ludovicianus) or prescribed fire. The role of these 2 rangeland disturbance processes has increased substantially over the past 15 years. During 2008–2009, I used radial distance point count surveys to estimate mountain plover densities early in the nesting season in 4 habitats on public lands in Weld County, Colorado. All 4 habitats were grazed by cattle during the growing season at moderate stocking rates but had different additional disturbances consisting of 1) dormant-season prescribed burns, 2) active black-tailed prairie dog colonies, 3) black-tailed prair...

Published

2011

96. Pathways for Positive Cattle–Wildlife Interactions in Semiarid Rangelands

Author

Corinna Riginos, Jacob R. Goheen, Kari E. Veblen, David J. Augustine, and Truman P. Young

Subjects

Ungulate, biology, Agroforestry, business.industry, ved/biology, Ecology, ved/biology.organism_classification_rank.species, Wildlife, General Medicine, biology.organism_classification, Shrub, Geography, Habitat, Exclosure, Livestock, Ecosystem, Rangeland, business

Abstract

Livestock- wildlife interactions in rangelands are often viewed in terms of competition, but livestock and native ungulates can also benefi t each other through long- term modifi cations of rangeland habitats. Here we synthesize research on rangelands in central Laikipia focusing on two types of cattle- wildlife interactions that have implica- tions for their long- term coexistence. The fi rst interaction occurs via redistribution of soil nutrients within the ecosystem, which is a consequence of the use of bomas (temporary corrals) to manage livestock. Our studies on two different soil types show that rotational boma management creates hectare- scale patches in the landscape that are enriched in soil and plant nutrients and persist for decades to centuries. In both of the predominant soil types in Laikipia, forage phosphorus content is low relative to ungulate demands during peak lactation. Nutrient- rich boma sites (hereafter referred to as glades) provide a key wet- season forage resource of nutritional suffi ciency for lactation. Our studies further show that a wide range of native ungulates selectively use glades relative to surrounding nutrient- poor habitats. Impala (Aepyceros melampus) in particular show intensive use of glades on sandy soils and are rare in portions of the landscape lacking glades. A second important pathway for cattle- wildlife interaction occurs through the infl uence of native browsing ungulates on woody vegetation. Shrub and tree cover has been increasing in Laikipia over the past century, followed by increases in native browsers in recent decades on ranches where wildlife are allowed to coexist with cattle. Our exclosure experiments in central Laikipia indicate that native browsers suppress shrub encroachment on both dominant soil types. However, the strength of browser effects are three to seven times greater on sandy soils, where two browsers, dik- dik and elephants, are both abundant, compared to heavy clay soils, where elephants are the only dominant browser. In the clay soils, native browsers still exert a signifi cant infl uence on dynamics of the domi- nant tree, Acacia drepanolobium, and suppress encroachment by subdominant shrub species. Browser effects on woody vegetation likely enhance forage production for cattle and maintain open habitats favored by native grazers for predator avoidance. Taken together, our studies indicate that boma rotation and browser control of shrub encroach- ment are key interaction pathways that promote cattle- wildlife coexistence in the Ewaso ecosystem.

Published

2011

97. Response of native ungulates to drought in semi-arid Kenyan rangeland

Author

David J. Augustine

Subjects

education.field_of_study, Ungulate, biology, Ecology, Population, biology.organism_classification, Arid, Population density, Madoqua kirkii, biology.animal, Dik-dik, Aepyceros melampus, Rangeland, education, Ecology, Evolution, Behavior and Systematics

Abstract

The distribution and abundance of native ungulates were measured on commercially managed, semi-arid rangeland in central Kenya over a 3-year period that encompassed severe drought and above-average rainfall. Native ungulate biomass density averaged 5282 kg km )2 over the study and was dominated by elephant (Loxodonta africana), impala (Aepyceros melampus) and dik-dik (Madoqua kirkii). Biomass density of domestic cattle (Bos taurus) averaged 2280 kg km )2 during the study. Responses of native ungulates to severe drought were variable. Impala densities were similar to or greater than densities for similar habitat in protected areas, and varied from 12 to 16 km )2 during and following the drought to 24–29 km )2 following above-average rainfall. Dik-dik densities were also greater than densities reported for protected areas and were surprisingly stable throughout the study despite the wide annual fluctuations in rainfall. Elephant migrated out of the region during drought but were present at high densities (2.9–5.2 km )2 ) during wet seasons, consistent with telemetry studies emphasizing the importance of Acacia bushland habitat on commercial rangelands for the migratory portion of the Laikipia–Samburu elephant population. Results show that substantial densities of native browsing and mixed-feeding ungulates can occur on rangeland managed for commercial beef production and suggest that the capacity for ungulates to move over large spatial scales (>100 km 2 ) and to shift distributions in re

Published

2010

98. Disturbance shapes avian communities on a grassland-sagebrush ecotone

Author

Courtney J. Duchardt, David J. Augustine, Jeffrey L. Beck, and Lauren M. Porensky

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, Brewer's sparrow, Disturbance (geology), Ecology, biology, Biodiversity, Prairie dog, Ecotone, 010603 evolutionary biology, 01 natural sciences, Grassland, Ecosystem engineer, 010601 ecology, biology.animal, Ecology, Evolution, Behavior and Systematics

Published

2018

99. Managing for Biodiversity and Livestock

Author

Theodore P. Toombs, David J. Augustine, Bryce Krueger, Justin D. Derner, and Seth Gallagher

Subjects

Geography, Ecology, business.industry, Agroforestry, Geography, Planning and Development, Scale dependent, Biodiversity, Livestock, Management, Monitoring, Policy and Law, Rangeland, business

Abstract

Managing for Biodiversity and Livestock: A scale-dependent approach for promoting vegetation heterogeneity in western Great Plains grasslands DOI:10.2458/azu_rangelands_v32i3_toombs

Published

2010

100. Prescribed Fire, Grazing, and Herbaceous Plant Production in Shortgrass Steppe

Author

Daniel G. Milchunas, David J. Augustine, and Justin D. Derner

Subjects

geography, geography.geographical_feature_category, Ecology, biology, Steppe, Prescribed burn, Growing season, Forage, Vegetation, Management, Monitoring, Policy and Law, Herbaceous plant, biology.organism_classification, Agronomy, Bouteloua gracilis, Grazing, Environmental science, Animal Science and Zoology, Nature and Landscape Conservation

Abstract

We examined the independent and combined effects of prescribed fire and livestock grazing on herbaceous plant production in shortgrass steppe of northeastern Colorado in the North American Great Plains. Burning was implemented in March, before the onset of the growing season. During the first postburn growing season, burning had no influence on soil moisture, nor did it affect soil nitrogen (N) availability in spring (April–May), but it significantly enhanced soil N availability in summer (June–July). Burning had no influence on herbaceous plant production in the first postburn growing season but enhanced in vitro dry matter digestibility of blue grama (Bouteloua gracilis [Willd. ex Kunth] Lag. ex Griffiths) forage sampled in late May. For the second postburn growing season, we found no difference in herbaceous plant production between sites that were burned and grazed in the previous year versus sites that were burned and protected from grazing in the previous year. Our results provide further evidence that prescribed burns conducted in late winter in dormant vegetation can have neutral or positive consequences for livestock production because of a neutral effect on forage quantity and a short-term enhancement of forage quality. In addition, our results indicate that with conservative stocking rates, deferment of grazing during the first postburn growing season may not be necessary to sustain plant productivity.

Published

2010