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Rangelands are fire-dependent ecosystems severely altered through direct fire suppression and fuels management. The removal of fire is a dominant cause of ecological sites moving across thresholds with the majority of North American rangelands currently showingmoderate or high departure from reference conditions. Recognizing the need to restore fire on rangelands and incorporate prescribed fire into management plans, the Natural Resource Conservation Service initiated the Conservation Effects Assessment Project (CEAP) to evaluate the validity current practices through peer-reviewed scientific literature. We updated the CEAP review and broadened the discussion of prescribed fire as a global management practice. We reviewed and summarized prescribed fire literature available through Web of Science using search terms in the title. The majority of literature (40%) evaluated plant responses to fire with fire behavior and management (29%), wildlife and arthropods (12%), soils (11%), and air quality (4%) evaluated less frequently. Generally, fire effects on plants are neutral to positive and the majority of negative responses lasted less than 2 years. Similarly, soil responses were recovered within 2 yr after burning. However, most studies did not report how long treatments were in place (62%) or the size of experimental units (52%). The experimental literature supporting prescribed burning is in need of greater managerial relevance that can be obtained by directly addressing spatial scale, temporal scale, and interaction with other disturbances, including drought and grazing. Reliance on information from single fires applied on small plots tracked for a relatively short time interval greatly constrains inferences and application to ecosystem management and information should be applied with caution. Therefore, conservation purposes need to incorporate temporal dynamics to the extent that this information is available. The complex interaction of scientific knowledge, social concerns, and variable policies across regions are major limitations to the successful and critical restoration of fire regimes.
Medusahead (Elymus caput-medusae [L.] Nevski) is a highly damaging invasive annual grass in California rangelands. While it has been shown that prescribed fire can be a successful tool in controllingmedusahead populations, fire treatments are not always successful. Given the sociological and economic constraints of prescribed fire use, it is critically important that we maximize likelihood of treatment success. We conducted experimental investigation of population dynamics of competing species from different functional groups: invasive annual medusahead, naturalized but forageable nonnative wild oat (Avena spp. Pott ex Link), and native perennial purple needlegrass (Stipa pulchra [Hitchc.] Barkworth). We observed population dynamics at the 1-m2 scale before and after treatments of prescribed fire and seed-limitation (weed whipping in a 1-m buffer area). We asked 1) what is the role of seed dispersal from burn edges on subsequent medusahead population size? and 2) how do density and fecundity of the dominant species respond to fire? Results showed that 1) seed dispersal is an important factor in recovery dynamics and 2) wild oat fecundity significantly increases in the year after fire while medusahead and needlegrass fecundity seem minimally affected. Ultimately, managers should consider fire as a preferable first-entry tool and should thoroughly consider shape and size of planned burns, aswell aswhat vegetation is present to play a role in post-treatment seed-dispersal dynamics.
Protected areas are essential, but not sufficient on their own, to conserve biodiversity into the future. Rangelands, used primarily for livestock grazing, have the potential to complement existing reserve systems and be used for “off-reserve” conservation. Success relies on our ability to manage rangelands to simultaneously achieve positive economic outcomes for graziers while maintaining the ecological processes that support biodiversity. However, we argue that research has failed to effectively inform off-reserve conservation strategies, particularly in relation to vertebrate fauna. Most research has focused on the difference in faunal diversity between ungrazed and heavily grazed areas, but faunal responses between these extremes have received less attention. In reality, moderate levels of grazing seem more likely to achieve the ecological, economic and social balance that would be required for successful offreserve conservation on rangelands. Here we review the current knowledge on the impact of grazing by domestic livestock on terrestrial vertebrate fauna in rangelands, highlighting the relative lack of research on the impact of grazing regimes between the extremes. We argue that a more detailed understanding of vertebrate responses to different grazing intensities is required. Furthermore, if the potential for off-reserve conservation on rangelands is to be realized, graziers need management advice based on the integration of ecological, economic, and social data.
Grassland bird species are declining more quickly than birds of any other biome in North America, but effects of the most widespread use of native mixed-grass prairies, livestock grazing, on nest survival of songbirds are not well understood. We used an adaptive management grazing experiment in southwestern Saskatchewan to evaluate effects of cattle grazing intensity and number of years grazed on nest survival of five songbird species in 2009 and 2010. Two 300-m2 plots were located in each of 12 pastures. Three pastures were ungrazed controls, while the remaining pastures had grazing intensities ranging from 0.23 to 0.83 animal unit months (AUM) · ha-1 (very low to very high for this region) and were grazed for 2–3 or > 15 yr. Analyses were conducted using logistic exposure regression. We found few effects of grazing on nest survival. Exceptions to this pattern were that the lowest nest survival rates occurred at low-moderate grazing intensities for Sprague's pipits (Anthus spragueii) in 2009, at low grazing intensities for chestnut-collared longspurs (Calcarius ornatus) in 2009, and at moderate grazing intensities for vesper sparrows (Pooecetes gramineus) in 2010. Increasing grazing duration lowered nest survival for Sprague's pipits and increased nest survival for chestnut-collared longspurs in 2009. Although lowormoderate grazing intensities are generally recommended to promotewildlife conservation, this may not promote productivity of all species. Nonetheless, our results suggest that in the short term, a wide range of grazing intensities is consistent with conservation of grassland songbirds.
With a view to increasing rangeland pasture legume abundance, the herbage biomass and seedling recruitment of four New Zealand naturalized annual clover species (haresfoot clover Trifolium arvense L., suckling clover T. dubium Sibth, cluster clover T. glomeratum L., and striated clover T. striatum L.) were measured in relation to spring grazing deferment versus continuous grazing and low versus high superphosphate fertilizer application (5 vs. 9 kg P · ha-1) at a midaltitude (700-m) hill site. Naturalized species were dominant over periodically sown white (T. repens L.) and subterranean clover (T. subterraneum L.), contributing N 90% to sward legume composition. Rainfall in spring-early summer varied greatly between years, driving the large variation in sward legume content (28% in the moist first year; 2% in the very dry second year). Grazing deferment in spring did not influence autumn seedling recruitment or the following spring herbage biomass of naturalized species. However, autumn recruitment of naturalized clovers was greater under low fertilizer (563 seedlings · m-2) compared with high fertilizer application (271 seedlings · m-2) in the second year of the study, suggesting a niche for these species under conditions of low soil P and S. Management efforts should focus on strategies to enhance naturalized species spread within NZ rangeland.
Invasions by non-native plants can alter ecosystems such that new ecological states are reached, but less is known about how these transitions influence animal populations. Sagebrush (Artemisia tridentata) ecosystems are experiencing state changes because of fire and invasion by exotic annual grasses. Our goal was to study the effects of these state changes on the Owyhee and western harvester ants (Pogonomyrmex salinus Olsen and P. occidentalis Cresson, respectively). We sampled 358 1-ha plots across the northern Great Basin,which captured unburned and burned conditions across 1-≥⃒31 years postfire. Our results indicated an immediate and consistent change in vegetation states fromshrubland to grassland between 1 and 31 years postfire. Harvester ant occupancy was unrelated to time since fire, whereas we observed a positive effect of fire on nest density. Similarly, we discovered that fire and invasion by exotic annuals were weak predictors of harvester ant occupancy but strong predictors of nest density. Occupancy of harvester ants wasmore likely in areas with finer-textured soils, low precipitation, abundant native forbs, and low shrub cover. Nest densitywas higher in arid locations that recently burned and exhibited abundant exotic annual and perennial (exotic and native) grasses. Finally,we discovered that burned areas that received postfire restoration had minimal influence on harvester ant occupancy or nest density compared with burned and untreated areas. These results suggest that fire-induced state changes from native shrublands to grasslands dominated by non-native grasses have a positive effect on density of harvester ants (but not occupancy), and that postfire restoration does not appear to positively or negatively affect harvester ants. Although wildfire and invasion by exotic annual grasses may negatively affect other species, harvester ants may indeed be one of the few winners among a myriad of losers linked to vegetation state changes within sagebrush ecosystems.
Although the impact of optimal stocking rate on rangeland health and ranch profitability has been extensively studied, grazing management practice has received far less attention in mathematical modeling analyses. This paper uses a mathematical model to examine the impacts of continuous grazing and multipaddock (MP) grazing on vegetation and livestock forage consumption. Simulations are carried out using parameters applicable to the southern tallgrass prairie of North America. On small areas of land with no difference between defoliation rates across different grazing methods, the performance of MP grazing is no better than continuous grazing. At the scale of commercial ranches, MP grazing with improved defoliation management improves grass composition and productivity, as well as livestock consumption relative to continuous grazing, especially with heavier stocking rates and unfavorable initial biomass composition. The advantages of MP grazing, however, are reduced with favorable rainfall conditions, light stocking, low levels of undesirable plants, and inadequate recovery periods.
Knowledge regarding the economic impacts of predicted increases in seasonal precipitation variability on cowcalf enterprises, through influences of precipitation on both forage and cattle productivity, is needed by land managers for developing risk management strategies. Here we use existing forage production and cattle performance data from the northern mixed-grass prairie, coupled with spring precipitation and economic data, in a ranch-level mathematical programming model. We estimate economic impacts across a 35-yr planning period with 100 iterations of different price cycles including five levels of increasing spring precipitation variation (10%, 20%, 30%, 40%, and 50% increases), examining the impact of resulting forage production and calf gain. Annual expected profit variability increases largely due to the increase in herd number variability rather than variability in calf gains. Overall, as seasonal precipitation variation increases, higher annual expected profit variability results in greater risk of negative returns from cattle. An important implication from our results is that the positive benefits of wet years do not overcome the negative impacts of the dry years given relationships among precipitation, forage production, and calf gains used in ourmodel. Results indicate greater profitability in generally maintaining lower herd numbers as seasonal precipitation becomes more variable. The results also illustrate the need for producers to diversify their operation and/or income sources if they are to cope with increased precipitation variability even if mean annual precipitation remains constant.
Duncecap larkspur (Delphinium occidentale [Wats.] Wats.) is an important perennial weed on high-elevation rangelands because of significant cattle losses due to toxic alkaloids in the plant. Aminocyclopyrachlor was evaluated at six rates between 17.5 and 315 g ai · ha-1 for larkspur control alone, and in combination with chlorsulfuron or metsulfuron, at a high-elevation location inWyoming. Aminocyclopyrachlor-containing treatments were compared with 1120 g ai · ha-1 picloram and 63 g ai · ha-1 metsulfuron-methyl. Herbicides were applied to two sites in a randomized complete block design with four replicates each on June 18, 2010 at the first site and June 28, 2011 at the second site. Larkspur mortality, plant species richness, vegetation cover, and grass biomass datawere collected 1 yr after treatment. Cover datawere used to calculate vegetation diversity and to assess changes in species composition associated with herbicide application. A four-parameter log-logistic model was used to evaluate larkspur mortality, species richness, and vegetation cover in response to aminocyclopyrachlor rate. Ninety-percent larkspur reduction was obtained with aminocyclopyrachlor applied alone at rates of 168–303 g ha-1, depending on site. Mixture of aminocyclopyrachlor plus chlorsulfuron at a 2.5:1 ratio required 102–127 g ha-1 of aminocyclopyrachlor to reduce larkspur 90%. Aminocyclopyrachlor plus metsulfuron was the most effective herbicide combination for larkspur control of those we evaluated, requiring 47 15 g ha-1, respectively, to reduce larkspur 90%. Species richness and diversitywere reduced by herbicide rates required to effectively control larkspur. Graminoid biomass was not significantly impacted by herbicide or rate. Aminocyclopyrachlor may be a useful tool for duncecap larkspur control. Addition of chlorsulfuron ormetsulfuron to aminocyclopyrachlor increased larkspur control but had a greater impact on associated nontarget vegetation.
Rangelands, due to their large expanse, are responsible for processing a significant portion of freshwater in the western United States. Rangeland managers are in need of methods to quantify hydrologic processes and scientifically based decision tools to effectively manage water resources under growing populations and a changing climate. The ecological site (ES) concept provides a useful framework to study complex rangeland hydrological processes in order to parameterize these tools. Traditionally, rangeland hydrology has been studied at the plot and watershed scale. ESs are intermediate-scale land units considered to have homogeneous site characteristics, which allow for mapping the spatial variability of hydrologic processes at a higher resolution compared with a lumped watershed approach. We conducted 20 variable-intensity rainfall simulation experimental runs using the Walnut Gulch Rainfall Simulator to characterize the hydrologic response of four different ESs in the Upper Crow Creek Watershed in southeastern Wyoming. An analysis of variance test with post hoc comparisons showed that sites were significantly different in runoff-infiltration dynamics. Sites ranged from exhibiting a large runoff ratio of 0.44 to infiltrating the entire applied rainfall volume. Multiple linear regressions showed that, on average, 83% of the variability of key hydrologic variables across sites could be explained by significant relationships (P ≤ 0.05) consisting of two or three ground cover variables. Beta weights for the regression variables indicated that percent cover of lesser spikemoss (Selaginella densa Rydb.) and bare soil were typically the most influential variables. Additional site-specific characteristics explain the remaining variability. The results fromthis study directly support the concept of using ESs to assess hydrologic response of rangelands. Incorporating quantitative hydrologic datasets into ecological site descriptions and decision tools should increase their utility for the management of rangeland ecosystems.
Increases in precipitation variability, coupledwith higher temperatures, will lead to greater frequencies of severe, prolonged droughts for many regions with the expectation of attendant increases in woody plant die-off events. We took advantage of a 2-yr extension of a severe drought following an initial study of woody plant dieback in a woody-encroached semiarid savanna in west-central Texas, United States. This study tests for the emergence of alternative vegetation trajectories as a result of continued drought persistence: 1) whether additional woody plant dieback occurred following the initial study, leading to a grass-dominated community, or 2) whether desertification became amajor feature (defined as a loss of herbaceous cover and increase in bare ground). Neither the emergence of a grass-dominated community nor the prevalence of desertification was observed during the initial study. After 2 additional yr of drought, we found that dieback of woody plants did not increase above previously observed levels, suggesting that the prolongation of drought did not cause the emergence of a grassdominated community in this heavily encroached rangeland. However, drought severity did lead to increases in desertification, with increases in bare ground owed to declines in grass cover. While previous research at this long-term research site suggests that desertification is transient with grasses rebounding once precipitation returns to predrought levels, rangelandmanagers should be aware of lags in vegetation response to drought and the increased potential for a shift toward a bare-ground dominated community following extended extreme drought. In this Texas semiarid savanna, major losses in herbaceous cover lagged behind woody plant dieback, so dieback of the woody component might hold promise as an indicator for near-termpotential of desertification.
Seedling recruitment plays a crucial role in recovering plant communities after disturbance. As a natural disturbance, fire canmediate species composition in fescue prairie. However, little was known about the effects of important fire cues on seedling recruitment in fescue prairie. Soil seed bank samples were taken fromthe top 5 cm of the soil profile and separated into litter, 0- to 1-cm, and 1- to 5-cm layers. Seedlings emerging from soil seed banks incubated in the greenhouse were examined after applying smoke, ash, and smoke plus ash in 2013 and 2014, to assess their effects on the density, richness, and composition of seedlings emerging from the soil seed bank in fescue prairie. Smoke plus ash significantly increased the number of Artemisia ludoviciana Nutt. seedlings emerging from 0- to 1-cm soil layer and Conyza canadensis (L.) Cronquist seedlings emerging fromthe litter layer (P < 0.05), while ash significantly increased the number of Artemisia frigida Willd. seedlings emerging from 0- to 1-cm soil layer (P < 0.05). Densities of total seedlings emerging from the 0- to 1-cm soil layer were increased by smoke plus ash in 2013 and by ash in 2014 (P < 0.05). Smoke plus ash and ash alone had more prominent effects on seedling density and richness of native forbs. Species composition was altered by ash in the 0- to 1-cm, 0- to 5- cm, and all layers combined in 2013 (P < 0.05). Direct fire cues appear to stimulate recruitment of some species, especially native forbs, contributing to potential changes in species composition of fescue prairie.
Heteropogon contortus recently and rapidly increased in dominance in grasslands where it once had been aminor component. Ecological effects of this increase are unknown, but landmanagers are concerned about the potential negative economic and ecological impacts. We examined compositional and structural characteristics of the vegetation community along a gradient of dominance of H. contortus to quantify changes, compare the effects to invasions by nonnative grasses, and provide insights about management. As H. contortus increased, grass richness decreased across the gradient by 6 species·m-2 (95% CI: 2–10) in summer and 10 species·m-2 (6–15) in winter. Cover of other native grasses decreased 8–10% in both seasons for every 10% increase in H. contortus. Presence of seven individual plant species and cover of five species decreased, but presence of five species and cover of one species increased with H. contortus. Canopy cover increased and soil nutrients were higher in dense H. contortus, potentially facilitating further ecological changes. We suggest that managing H. contortus and other species that become invasive within the ecosystem where they were once native likely requires reducing rather than wholly eliminating the species, which may differ from management strategies for nonnative species.
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