Plant Community Composition after 75 Yr of Sustained Grazing Intensity Treatments in Shortgrass Steppe

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-termor mid-termweather patterns, differences in grazing timing or intensity, or interactive effects of management and weather. Long-term experimental data are needed to determine howgrazing 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 compositionwas similar betweenmoderately 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-termsustainability 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 byweedy annuals and to maintain cover of blue grama, a highly drought-tolerant species. © Published by Elsevier Inc. on behalf of The Society for Range Management.The Rangeland Ecology & Management archives are made available by the Society for Range Management and the University of Arizona Libraries. Contact [email protected] for further information

Cross-site comparison of herbivore impact on nitrogen availability in grasslands: the role of plant nitrogen concentration

Herbivores may influence the nitrogen (N) recycling rates and consequently increase or decrease the productivity of grasslands. Plant N concentration emerged as a critical parameter to explain herbivore effects from several conceptual models, which predict that herbivores decrease soil N availability when plant N concentration is low whereas they increase it when plant N concentration is high (Hobbs 1996, Ritchie et al. 1998, Pastor et al. 2006). However, a broader cross-site comparison among published studies to test these predictions is hampered by the different methodologies used to measure soil N availability or a proxy thereof, and a lack of measurements of plant N concentration. Therefore it remains unclear whether these model predictions are generally valid across a range of grasslands. We tested whether there is a relationship between plant N concentration and herbivore impact on soil N availability (measured with resin bags) with a study of replicate 6–8 year old exclosures (with an unfenced control) of vertebrate herbivores (>1 kg) established at each of seven grassland sites in North America and Europe. Contrary to model predictions, we found a negative relationship between the effect of herbivores on resin bag soil N availability and plant N concentration. Our study confir

Herbivore impact on grassland plant diversity depends on habitat productivity and herbivore size

Mammalian herbivores can have pronounced effects on plant diversity but are currently declining in many productive ecosystems through direct extirpation, habitat loss and fragmentation, while being simultaneously introduced as livestock in other, often unproductive, ecosystems that lacked such species during recent evolutionary times. The biodiversity consequences of these changes are still poorly understood. We experimentally separated the effects of primary productivity and herbivores of different body size on plant species richness across a 10-fold productivity gradient using a 7-year field experiment at seven grassland sites in North America and Europe. We show that assemblages including large herbivores increased plant diversity at higher productivity but decreased diversity at low productivity, while small herbivores did not have consistent effects along the productivity gradient. The recognition of these large-scale, cross-site patterns in herbivore effects is important for the development of appropriate biodiversity conservation strategies. [KEYWORDS: Cross-site ; fertility ; grazing ; plant–animal ;species richness]

Dinâmica vegetacional em pastagem natural submetida a diferentes sistemas de manejo Vegetation dynamics of natural grassland under different management systems

A dinâmica da composição florística de uma pastagem natural foi avaliada para estimar os efeitos de sistemas de pastejo e introdução de espécies hibernais. O experimento foi realizado em São Gabriel, na região da Depressão Central, Rio Grande do Sul. O período de pastejo foi entre 01/11/2004 e 23/12/2004, totalizando 53 dias. Foram realizados dois levantamentos da composição florística, sendo o primeiro antes do início do pastejo (23/09/2004) e o segundo após o término do período experimental (27/01/2005). Os tratamentos testados foram: pastagem natural melhorada com introdução de espécies hibernais sob pastejo rotativo (CNM); pastagem natural sob pastejo contínuo (CNC) e pastagem natural sob pastejo rotativo (CNR), sendo distribuídos em delineamento inteiramente casualizado, com duas repetições. Os animais utilizados no pastejo foram ovelhas com cordeiros da raça Corriedale. Os dados foram submetidos à análise multivariada baseada em ordenação e testes de aleatorização. No primeiro levantamento botânico, o tratamento CNM diferiu (P=0,0001) do CNC e CNR pela elevada participação das espécies introduzidas, enquanto CNC e do CNR foram semelhantes (P=0,6742) na composição de espécies. Os tratamentos CNM e CNC foram diferentes (P=0,0017) no segundo levantamento. O efeito do pastejo rotativo, a introdução de espécies e a adubação são determinantes para mudanças na composição da vegetação. A vegetação sob efeito de pastejo rotativo apresentou trajetórias que convergem para uma situação de semelhança na composição de espécies.<br>Floristic composition's dynamics of a natural grassland was evaluated to estimate the effects of grazing systems and introduction of cool season species. The experiment was held in São Gabriel, in the region of Depressão Central, Rio Grande do Sul, Brazil. The grazing period was from 01/11/2004 to 23/12/2004, totaling 53 days. Floristic composition were evaluated before the beginning of the grazing period (23/09/2004) and after its end (27/01/2005). Tested treatments were: natural grassland improvement with introduction of cool season species under rotative grazing (CNM); natural grassland under continuous grazing (CNC) and natural grassland under rotative grazing (CNR), distributed in an entirely randomized design, with two replicates. Corriedale breed ewes, with their lambs, were tester grazing animals. Data were submitted to multivariate analysis based in ordination and randomization testing. In the first survey, the treatment CNM differed (P=0.0001) from CNC and CNR due to the high contribution of the introduced species, while CNC and CNR were similar (P=0.6742) in species' composition. Treatments CNM and CNC were different (P=0.0017) in the second evaluation. The effect of rotative grazing, introduction of species and fertilization seems to be decisive for changes in floristic composition. Vegetation under rotative grazing presented trajectories that converge to a situation of similarity in the species' composition

Vegetação campestre do sul do Brasil: dinâmica de espécies à exclusão do gado Grassland vegetation in Southern Brazil: dynamics of species in cattle excluded areas

O presente estudo objetivou avaliar modificações ocorridas na vegetação em uma área de campo natural, após oito anos sem influência de pastoreio. A área situa-se na Estação Experimental Agronômica da UFRGS, no município de Eldorado do Sul, RS, onde foram realizadas amostragens em 1984 e 1992. Dezesseis unidades amostrais permanentes de 0,25 m² foram utilizadas para verificar a presença e o valor de cobertura das espécies, pela escala de Daubenmire. São apresentados os valores de freqüência e cobertura absolutas (FA e CA, respectivamente) das espécies de Gramineae, Compositae, Rubiaceae, Leguminosae, Umbelliferae e Cyperaceae nos levantamentos de 1984 e 1992. O trabalho evidenciou a relação entre a forma biológica das espécies predominantes e os estados pastejado ou excluído. Em Gramineae, espécies rasteiras, estoloníferas ou rizomatosas (Paspalum notatum, Axonopus affinis e outras), características da área pastejada, foram substituídas por plantas de hábito cespitoso (Andropogon lateralis, Elyonurus candidus e outras), capazes de sombrear e sobrepujar as de baixo porte. Espécies de compostas e rubiáceas, de um modo geral, apresentaram uma redução em FA e pouca alteração em CA. As leguminosas apresentaram principalmente um aumento em FA, mantendo a CA praticamente constante. As umbelíferas destacaram-se pelo aumento da CA em metade de suas espécies. Ocorreu o surgimento de 25 e o desaparecimento de 42 espécies em 1992.<br>The aim of this study was to evaluate modifications after eight years without grazing in a native grassland area, located at the Estação Experimental Agronômica - UFRGS, in Eldorado do Sul, RS. Vegetation surveys were done in 1984 and 1992. Sixteen permanent sample quadrats (0.25 m²) were established and presence of species and cover-abundance values according to the Daubenmire scale were recorded. Absolute frequencies and cover values (AF and AC, respectively) in 1984 and 1992 are presented for Gramineae, Compositae, Rubiaceae, Leguminosae, Umbelliferae and Cyperaceae species. The study showed the relation between the growth forms of the most abundant species and the grazed and ungrazed situations. Creeping, stoloniferous and rhizomatous species of Gramineae (Paspalum notatum, Axonopus affinis and others) were conspicuous when the area was under grazing, being replaced by tussock-type plants (Andropogon lateralis, Elyonurus candidus and others) able to dominate and shade out small understory herbs, when excluded. Compositae and Rubiaceae species showed a reduction in AF and few changes in AC. Leguminosae species had an increase in AF, presenting almost constant values for AC. Half of the Umbelliferae species presented an increase in AC in the second survey. Twenty five species appeared and 42 vanished in 1992

Plant quality and primary productivity modulate plant biomass responses to the joint effects of grazing and fertilization in a mesic grassland

Questions: Human activities are increasing the density of domestic grazers and global nutrient loads, modifying the main determinants of vegetation community dynamics. Grazing (top-down control) and nutrient availability (bottom-up control) may interactively modify plant biomass, which is particularly important in grasslands devoted to livestock production. Here, we aim to understand the interactive effects of grazing and fertilization on grassland plant biomass. We hypothesized that the joint effects of nutrient addition and domestic grazing on above-ground plant biomass are not additive, but they modify each other through changes in ground-level light, leaf nutritional quality, above-ground net primary productivity (ANPP), and below-ground plant allocation. Location: Flooding Pampa (Buenos Aires, Argentina). Methods: We carried out a factorial experiment of grazing exclusion and fertilization with nitrogen, phosphorus, and potassium + micronutrients during ​several years in a mesic grassland devoted to livestock production. Results: After four years, grazing reduced live above-ground plant biomass by 52%, and when combined with fertilization this reduction was 70%. Nutrient addition in the grazed grassland increased ANPP and leaf nutrient concentration. These changes in turn intensified grazing pressure and cattle’s plant consumption. By contrast, fertilization did not produce any significant effect on plant biomass or ANPP inside the exclosures, where ground-level light was low. A structural equation model revealed that the increase in ANPP fostered above-ground and reduced below-ground plant biomass. Conclusions: This is the first study conducted in the Pampas grasslands that evaluated the effect of cattle grazing and fertilization on plant communities under field conditions over several years. Grazing and nutrient addition synergistically controlled grassland plant biomass, as the reduction in above-ground biomass by cattle consumption was greater in fertilized plots. Our results provided empirical evidence that leaf nitrogen and ANPP modulated plant biomass dynamics in grasslands devoted to livestock production in the context of increased nutrient loads in terrestrial ecosystems.Fil: Campana, María Sofía. 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; ArgentinaFil: Yahdjian, María Laura. 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; Argentin