Your search keyword '"GRAZING"' showing total 42,865 results

1. Rapid User Guide: Postfire Grazing on California’s Intermountain Rangelands 

Author

Little, Janyne M, Lile, David F, Snell, Laura K, and Roche, Leslie M

Subjects

wildfire, rangeland, grazing, livestock

Abstract

This rapid user guide for public and private land managers and livestock producers, will walk you through key considerations and timelines that should go into your decision-making process following wildfires on California's intermountain perennial rangelands.Rest from grazing is a viable option in some cases, but it is not always necessary. Specific grazing management decisions, including whether or not to rest from grazing, should be based on field assessments made in the spring following fire.

Published

2023

2. Presence of foodborne pathogens and survival of generic Escherichia coli in an organic integrated crop-livestock system

Author

Cheong, Sejin, Jay-Russell, Michele T, Chandler-Khayd, Carolyn, Di Francesco, Juliette, Haghani, Viktoria, Aminanadi, Peiman, Williams, Sequoia R, Gaudin, Amélie CM, Tautges, Nicole, and Pires, Alda FA

Subjects

Agricultural, Veterinary and Food Sciences, Crop and Pasture Production, Vaccine Related, Emerging Infectious Diseases, Biodefense, Prevention, Digestive Diseases, Infectious Diseases, Zero Hunger, grazing, food safety, fresh produce, sustainable agriculture, soil, sheep, Agricultural, veterinary and food sciences, Environmental sciences

Abstract

Introduction: Integrated crop-livestock systems (ICLS) use animals to graze crop residues or cover crops before planting fresh produce and provide ecosystem services to support organic vegetable production. However, there is a risk of foodborne pathogen transfer to fresh produce because grazing may introduce enteric foodborne pathogens into the soil via animal feces, which may subsequently be transferred to the produce. Methods: To examine the effect of cover crop use and the risk of cover crop grazing on the contamination of soil and produce by foodborne pathogens in ICLS, a three-year (2019–2021) experimental study was conducted in organically managed plots, which were assigned three different treatments (fallow without cover crop or grazing, cover crop without grazing, or cover crop with grazing by sheep) in a maize/tomato rotation. During the three years of the experiment, a total of 184 pre- and post-graze fecal samples and 96 samples of tomatoes were collected to test for foodborne pathogens (Escherichia coli O157, non-O157 Shiga toxin-producing Escherichia coli (STEC), and Listeria (L.) monocytogenes). Soil samples were collected monthly until 126–171 days after grazing (824 in total) to examine the presence of foodborne pathogens, and generic E. coli (MPN/g) was quantified to compare its persistence among the three treatments. Results and Discussion: We did not detect any foodborne pathogens from harvested tomatoes in 2020 and 2021. One non-O157 STEC positive soil sample (0.1%, 1/824) was detected in the fallow treatment, and one L. monocytogenes-positive (1.1%, 1/92) was detected from the post-graze fecal samples. When assessing proportions of generic E. coli positive and counts of generic E. coli in the soil samples using mixed effect zero-inflated negative binomial models, soil samples collected in the graze cover crop treatment plot showed significant increases in the counts of generic E. coli until 61–82 days post grazing, but no difference was observed after 96–123 days, compared to the baseline of the fallow treatment. Findings from generic E. coli counts support the use of the United States Department of Agriculture (USDA) National Organic Program (NOP) 90- or 120-day interval rule between applying raw manure and harvesting in organic farming into ICLS. Additionally, we confirmed that commercial organic compost application before cover crop seeding in the winter had no significant effect on the proportions and counts of generic E. coli in the soil of the following growing seasons. This longitudinal field trial confirmed that the effect of sheep grazing on foodborne pathogen contamination in ICLS is minimal but further studies comparing the genetic associations between fecal and soil samples would be necessary to distinguish the source of foodborne pathogen contamination.

Published

2024

3. Amazing Graze: Shifts in Jellyfish and Clam Distributions During Dry Years in the San Francisco Estuary

Author

Hartman, Rosemary, Twardochleb, Laura, Burdi, Christina E., and Wells, Elizabeth H.

Subjects

Potamocorbula amurensis, Corbicula fluminea, Maeotias marginata, jellyfish, clams, invasive species, benthic invertebrates, gelatinous zooplankton, grazing, drought

Abstract

Aquatic invasive species have drastically changed how the San Francisco Estuary functions. During the past 2 decades, the effects of invasive species in the estuary may have increased in response to frequent and severe drought conditions. The invasive overbite clam (Potamocorbula amurensis), and the Asian clam (Corbicula fluminea) have well documented consequences on the estuarine food web, but their responses to drought are not well understood. Another invasive species, the jellyfish Maeotias marginata, can further affect the food web, but these effects have not been studied. We investigated the population responses of these invasive species to dry years and their potential effects on the pelagic food web using data from the Interagency Ecological Program’s monitoring surveys. We found M. marginata rapidly moves upstream with changing salinities during dry years, though it sees its highest abundance during high-outflow years in Suisun Bay and Suisun Marsh. Grazing rates of M. marginata in the estuary have not been quantified but are potentially high during localized blooms. The two invasive clams overlap in distribution, but have opposite population responses to drought conditions, with increases in P. amurensis densities and decreases in C. fluminea densities in dry years. With increasing P. amurensis densities, the clams’ combined annual filtration rates increase during drier years in the confluence and Suisun Marsh. Like M. marginata, P. amurensis also shifts upstream during droughts, but because adults cannot move immediately with a change in salinity, the population center of distribution shifts upstream the year after a dry year as a result of juvenile recruitment. If multiple dry years occur in a row, and both P. amurensis and M. marginata move upstream together, their effects on the food web could be compounded, and phytoplankton and zooplankton biomass could steeply decline in the confluence, affecting higher trophic levels in the estuary.

Published

2024

4. Effects of grazing on the relationship between dominant shrubs and understory vegetation along sand dune stability gradient.

Author

Zhu, Tiantian, Cao, Wenxu, Li, Xu, Hai, Lu, Zhao, Xiulian, and Li, Qinghe

Subjects

*SAND dunes, *UNDERSTORY plants, *GREEN movement, *GRAZING, *PLANT species

Abstract

During the process of dune vegetation restoration, understanding how grazing disturbance affects the relationship between plant species is a critical issue in ecological studies. However, there is insufficient evidence on the changes in the interaction between dominant shrubs and understory vegetation under grazing behavior. We aimed to study how grazing and dune stabilization affects the relationship between Caragana microphylla and understory vegetation. We established fencing at various stages of dune stabilization and proceeded to compared the performance indicators (e.g., richness and biomass) and the relative interaction index of understory vegetation and different functional groups along the dune stability under grazing and fencing conditions. Results showed that C. microphylla had facilitation on understory plants, and increased with dune stability, while the facilitation of Caragana microphylla on understory vegetation was stronger under grazing conditions. As sand dune stabilization increases, the facilitation of C. microphylla on understory vegetation diversity decreases significantly. However, there was no significant difference in the facilitation of C. microphylla on understory vegetation biomass at different stages of sand dune stabilization. This is related to the survival strategy of perennials being less tolerant to environmental stress than annuals, because grazing increased the richness of both annuals and perennials while reducing the overall biomass, and in the later stages of sand dune stabilization, and the facilitation of C. microphylla on perennials was higher than on annuals. Our study highlights the importance of the responses of different life-form groups to environmental factors and grazing disturbance during the process of sand dune vegetation restoration, as they play a crucial role in shaping the development of the relationship between understory vegetation and dominant shrubs. [ABSTRACT FROM AUTHOR]

Published

2024

5. A long-term high-resolution dataset of grasslands grazing intensity in China.

Author

Wang, Daju, Peng, Qiongyan, Li, Xiangqian, Zhang, Wen, Xia, Xiaosheng, Qin, Zhangcai, Ren, Peiyang, Liang, Shunlin, and Yuan, Wenping

Subjects

GREENHOUSE gases, CARBON cycle, GRAZING, SPATIAL variation, GRASSLANDS

Abstract

Grazing is a significant anthropogenic disturbance to grasslands, impacting their function and composition, and affecting carbon budgets and greenhouse gas emissions. However, accurate evaluations of grazing impacts are limited by the absence of long-term high-resolution grazing intensity data (i.e., the number of livestock per unit area). This study utilized census livestock data and a satellite-based vegetation index to develop the first Long-term High-resolution Grazing Intensity (LHGI) dataset of grassland in seven pastoral provinces in western China from 1980 to 2022. The LHGI dataset effectively captured spatial variations in grazing intensity, with validation at 73 sites showing a correlation coefficient (R2) of 0.78. The county-level validation showed an averaged R2 values of 0.73 ± 0.03 from 1980 to 2022. This dataset serves as a vital resource for estimating grassland carbon cycling and livestock system CH4 emissions, as well as contributing to grassland management. [ABSTRACT FROM AUTHOR]

Published

2024

6. Moderate and extreme warming under a varied resource supply alter the microzooplankton–phytoplankton coupling in North Sea coastal communities.

Author

Cabrerizo, Marco J., Happe, Anika, Ahme, Antonia, John, Uwe, Olsson, Markus, and Striebel, Maren

Subjects

*RESOURCE availability (Ecology), *ENERGY transfer, *CALORIC content of foods, *GRAZING, *CLIMATE change

Abstract

Rising temperature is one of the most visible effects of global change on Earth; however, it is barely known how moderate or extreme warming events impact the trophic interactions and the energy transfer in food webs. Combining a mesocosm approach and two‐point dilution incubations, we quantified how natural plankton assemblages respond to moderate and extreme warming (+6°C vs. +12°C above ambient temperature), covering a nitrogen‐to‐phosphorus gradient from nutrient‐saturated to limited conditions. We addressed how both drivers altered the community structure and mediated the phytoplankton growth (μ) and microzooplankton grazing (m) rates. Moderate and extreme warming effects on the microzooplankton–phytoplankton relationship differed and were mediated by time. This trophic interaction was weakened due to μ outpacing m regardless of the warming treatment at the middle of the experiment. By contrast, after the acclimation period, the trophic interaction was strengthened by increased grazing under extreme warming. The variable grazing pressure found at different temporal scales only under extreme warming could be due to a decreased microzooplankton grazing pressure with increasing temperature when prey biomass is low, and vice versa. Also, it could be a consequence of a switch toward mixotrophy or that the temperatures experienced by grazers were suboptimal compared to their prey. Finally, we found that temperature was the main driver whereas resource availability played a minor role in this trophic interaction. As climate change will intensify in the future, food webs could be less productive but more efficient, and thus, potentially support a higher secondary production. [ABSTRACT FROM AUTHOR]

Published

2024

7. Assessing Atlantic Kelp Forest Restoration Efforts in Southern Europe.

Author

Marques, Alexandre F. S., Sanchéz-Gallego, Álvaro, Correia, Rodrigo R., Sousa-Pinto, Isabel, Chemello, Silvia, Louro, Inês, Lemos, Marco F. L., and Franco, João N.

Abstract

Kelp forests are essential marine ecosystems increasingly compromised by human activities. Effective reforestation strategies are urgently needed, and the "green gravel" method is a viable tool already used in some European regions. This study aimed to assess the success of this method using the native Kelp species Laminaria ochroleuca on the Portuguese coastline. Cultures of green gravel were reared until the specimens reached a size of approximately 3 cm. The gravel was then deployed at selected sites in Peniche, Berlengas, and Cascais. Over an eight-month period, scientific scuba divers monitored the integration of Kelp, along with associated fish, invertebrate, and algae communities. Nutrient availability, temperature, water movement, substrate type, and Rugosity Index (RI) were also measured. The highest success rate was 12% in Consolação, with Elefante and Galos (Berlengas) reaching 7% and 4%, respectively. By the end of the monitoring period, Cascais had no remaining Kelp on green gravel. Present data suggest that higher success is dependent on less rugged and higher RI topography. Higher grazing pressure, rougher terrain, and unexpected sedimentation appear to be the main obstacles to deployment success. Solid knowledge (biologic and topographic) on the restoration site, starting restoration actions near already established Kelp forests, and significantly scaling up restoration efforts could substantially improve the success of the green gravel method in future reforestation campaigns. [ABSTRACT FROM AUTHOR]

Published

2024

8. Assessing the potential of diverse pastures for reducing nitrogen leaching.

Author

Graham, Scott L., Pronger, Jack, Laubach, Johannes, Hunt, John E., Rogers, Graeme N. D., Carrick, Sam, Whitehead, David, McLeod, Malcolm, Mitchell, Grace, and Mudge, Paul

Subjects

WATER quality, LOLIUM perenne, PLANT diversity, LIVESTOCK losses, SPECIES diversity, WHITE clover

Abstract

Mitigation practices for nitrogen leaching losses from livestock agriculture are needed to protect freshwater quality and increase the efficiency of agricultural production. Within New Zealand, the most common pasture type is a twospecies mix of perennial ryegrass (Lolium perenne) and white clover (Trifolium repens). Ecological theory suggests that increasing species and functional diversity improves ecosystem function, including nitrogen (N) retention. Use of more diverse pasture types, including a mix of pasture grasses, legumes and other forbs, particularly plantain (Plantago lanceolata), with functional traits, including winter activity, deep-rooting, N fixation, and biological inhibition of nitrification in the soil, is a potential mitigation practice that requires further verification with long-term field measurements. Here we utilize a network of large lysimeters to make field-based measurements of N leaching from 5-8 species diverse pasture, including plantain, under a range of soil, climate and management conditions, for comparison with losses from traditional ryegrass-clover pasture. Over 3 years of measurements, leaching from fully established diverse pasture was 2-80 kg N ha-1 y-1. No differences were observed in dry matter production or N leaching of diverse pasture compared to ryegrass-clover lysimeters. Large losses, up to 120 kg N ha-1, were observed during periods when pasture was not fully established, including cultivation and sowing of new pasture, depending on season. Timing of management activities could be optimized to minimize these losses. These data provide critical assessment of diverse pasture as a mitigation approach for reducing N losses. Further work on diverse pastures should include higher diversity mixes as well as consideration of animal mediated effects of diverse pasture diets on N inputs. [ABSTRACT FROM AUTHOR]

Published

2024

9. First molecular evidence of bovine hemoplasmas in houseflies (Musca domestica).

Author

Park, Min-Ho, Cho, Seok-Jin, Kim, Youngjun, Cho, Hyung-Chul, Park, Yu-Jin, Ji, Min-Jeong, Song, Jaehyeok, and Choi, Kyoung-Seong

Subjects

*HOUSEFLY, *HEMOLYTIC anemia, *CANDIDATUS, *CATTLE, *GRAZING

Abstract

Background: Hemoplasma infections in cattle are caused by Mycoplasma wenyonii and Candidatus Mycoplasma haemobos and induce asymptomatic or chronic infections but occasionally lead to life-threatening hemolytic anemia. Despite the global distribution of bovine hemoplasmas, information regarding their transmission vectors and prevalence is still lacking in the Republic of Korea. Therefore, this study aims to investigate the infection rate of bovine hemoplasma in cattle and houseflies and to assess the risk factors associated with hemoplasma infection in cattle. Methods: Overall, 376 blood samples were collected from Korean indigenous cattle (male, 10−13 months old), along with 2,690 houseflies (Musca domestica) from the same farm where the cattle were raised. PCR assays targeting the 16S rRNA gene were performed to detect hemoplasmas, and positive samples were sequenced. Results: The infection rate of bovine hemoplasmas was 50.8% (191/376) in cattle and 7.4% in pooled houseflies. Among cattle, 18.6% (70/376) and 20.0% (75/376) tested positive for M. wenyonii and Candidatus M. haemobos, respectively. Conversely, in houseflies, Candidatus M. haemobos was more frequently detected (5.9%) than M. wenyonii (0.7%). Co-infection was 12.2% (46/376) in cattle and 0.7% in flies. Furthermore, hemoplasma infection was significantly associated with the grazing experience of their dams. Cattle born to cows with grazing experience exhibited a higher risk for M. wenyonii infection (odds ratio [OR] = 1.62; 95% confidence interval [CI]: 1.03−2.55; P = 0.045), whereas these cattle had a lower risk for Candidatus M. haemobos infection (OR = 0.32, 95% CI: 0.19−0.74; P = 0.000) than animals born to cows without grazing experience. The sequences obtained from houseflies were confirmed as Candidatus M. haemobos, which displayed high similarity (98.2−100%) to those from cattle obtained in this study. Conclusions: To our knowledge, this study represents the first report of bovine hemoplasmas identified in houseflies. This molecular evidence suggests that houseflies may be possible vectors for Candidatus M. haemobos. [ABSTRACT FROM AUTHOR]

Published

2024

10. Methane pulse spray and irrigation promote seed germination and seedling growth of common vetch.

Author

Zeng, Yifeng, Liu, Zhiqiang, Chen, Weijun, Qv, Ketan, Huang, Yanxiang, Ade, Luji, and Hou, Fujiang

Subjects

*SPRINKLER irrigation, *ARID regions, *GRASSLAND plants, *GRAZING, *PLANT growth, *GERMINATION

Abstract

Background: Grazing livestock emits methane through rumen intestinal activity, however, its impact on plant growth in grassland while grazing still has not been explored in detail. Therefore, the study examined the effects of methane pulse spray (MPS), according to grazing intensity, at four grazing intensities (0, 3.6, 5.0, and 6.5 sheep·hm− 2 yr− 1) on seed germination and seedling growth of common vetch (Vicia sativa), while two irrigation rates (35 and 53 ml d− 1) were employed to simulate the precipitation. Results: The study revealed significant interactions between MPS and irrigation rate on seed germination and seedling growth parameters. Under moderate MPS intensities (0.74 and 1.04 mol m− 2), seed germination rate, potential, index, and vigor index improved, especially at higher irrigation rates (53 ml d− 1). Conversely, excessive MPS (1.33 mol m− 2) inhibited particularly at the germination rate and growth,. The seedling growth dynamics fitted a logistic model, with MPS advancing the rapid growth phase and increasing maximum growth rates. Conclusions: This study demonstrates that low to moderate levels of MPS from ruminants can promote seed germination and seedling growth of common vetch, while excessive MPS inhibits these processes. Irrigation enhances plant sensitivity to MPS, with wetter conditions (620 mm yr− 1) facilitating a more pronounced response. The findings introduce a new model elucidating plant responses to external perturbations, which can inform grazing management strategies in diverse ecosystems. In wetter regions, moderate grazing intensities may leverage MPS benefits, while arid regions require careful grazing regulation to maintain grassland-livestock balance. [ABSTRACT FROM AUTHOR]

Published

2024

11. Lameness in Adult Sheep and Goats in Greece: Prevalence, Predictors, Treatment, Importance for Farmers.

Author

Katsarou, Eleni I., Lianou, Daphne T., Michael, Charalambia K., Petridis, Ioannis G., Vasileiou, Natalia G. C., and Fthenakis, George C.

Subjects

*ANIMAL herds, *SHEEP ranches, *GOAT farming, *SHEEP ranchers, *SHEEP farming

Abstract

Simple Summary: This work investigated lameness on sheep and goat farms in Greece in an extensive study throughout the country. The prevalence of lameness was found to be low, specifically 1.9% among sheep farms and 2.6% among goat farms. Application of vaccination against foot-rot, increased precipitation at farm locations and longer annual grazing periods for sheep and increased precipitation at farm locations for goats emerged as significant predictors for the prevalence of lameness among the farms in the study. Antibiotic administration (mainly lincomycin or oxytetracycline) was the preferred method for treatment of the disorder. Lameness was considered to be an important health problem by 5.6% of farmers, whilst mastitis was ranked first, which reflects the dairy production type prevailing in small ruminant farms in Greece. The present study refers to an extensive investigation of lameness performed countrywide in Greece, on 325 sheep and 119 goat farms. The specific objectives of this work were to present data on the occurrence of lameness on sheep and goat farms and to identify variables (including variables related to climatic factors) associated with the disorder on the farms. Farms were visited and animals on the farm were assessed for the presence of lameness; further, an interview was carried out with the farmer to obtain information regarding practices applied on the farm. Climatic variables at the location of each farm were derived from NASA research. The within farm prevalence rate varied from 0.0% to 25.0% in sheep flocks and from 0.0% to 30.0% in goat herds. The mean ± standard error (median (interquartile range)) within farm prevalence rate among sheep farms was 1.9% ± 0.2 (0.0% (0.0%)); among goat farms, it was 2.6% ± 0.5% (0.0% (0.0%)). Multivariable analysis for within farm prevalence of lameness revealed three significant predictors in sheep farms: application of vaccination against foot-rot, increased precipitation at the farm location and longer annual grazing period for sheep, and one in goat farms: increased precipitation at the farm location. Treatment of lameness involved mostly administration of antibiotics (on 104 farms); the antibiotics administered most often were lincomycin (on 69 farms) and oxytetracycline (on 33 farms). There was a tendency for higher median within farm prevalence of lameness among farms where no antibiotic administration was practiced. Finally, 6.2% of sheep farmers and 4.2% of goat farmers considered lameness as an important health problem for the animals, specifically the third and fifth most important problem on the respective farms. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficacy of Rotational Grazing on the Control of Rhipicephalus microplus Infesting Calves in Humid Tropical Conditions.

Author

Cruz-González, Gabriel, Pinos-Rodríguez, Juan Manuel, Alonso-Díaz, Miguel Ángel, Romero-Salas, Dora, Vicente-Martínez, Jorge Genaro, Fernández-Salas, Agustín, Jarillo-Rodríguez, Jesús, Castillo-Gallegos, Epigmenio, and Magalhães, Lizandra Guidi

Subjects

*ROTATIONAL grazing, *RANGE management, *GRAZING, *SABBATH, *TROPICAL conditions, *HEIFERS

Abstract

Grazing management through pasture rotation has been mentioned as a viable alternative for the control of Rhipicephalus microplus; however, there is limited information on rotational grazing at field level. The objectives of this research were (1) to evaluate the effect of rotational grazing with 30 and 45 days of pasture rest and continuous grazing (without rest) on R. microplus tick loads in Brahman heifers and its most common crosses with Holstein; (2) to know the parasite dynamics of R. microplus under the three grazing systems in the humid tropics of Mexico; and (3) to determine the effect of the treatments on the characteristics of the pastures (availability of forage biomass, plant height, and soil cover). The experiment was carried out for 1 year from April 2022 to March 2023, with three grazing treatments: Treatments 1 and 2 considered rotational grazing with 30 (RT30) and 45 days of rest (RT45), respectively, and Treatment 3 as continuous grazing (CT00). Thirty calves from 8 to 12 months of initial age were distributed in each treatment (n = 10). Every 14 days, the number of engorged and semiengorged female ticks in cattle was determined. Concomitantly, the region's temperature, relative humidity, and rainfall were recorded, as well as the agronomic characteristics of the pasture. Rotational grazing animals with 30 days of rest had the highest number of ticks, while grazing animals with 45 days of rest had the least. Tick load dynamics among groups did not correlate with climatic variables (p > 0.05). The height and grass cover presented significant changes due to grazing (p < 0.05), which could influence the tick cycle by the exposure of the soil, modifying the microclimatic conditions and consequently harming the survival and development of R. microplus in the evaluated systems. The negative effect of rotational grazing on the nonparasitic phase of R. microplus deserves further studies. [ABSTRACT FROM AUTHOR]

Published

2024

13. Drivers of woody dominance across global drylands.

Author

Biancari, Lucio, Aguiar, Martín R., Eldridge, David J., Oñatibia, Gastón R., Bagousse-Pinguet, Yoann Le, Saiz, Hugo, Gross, Nicolas, Austin, Amy T., Ochoa, Victoria, Gozalo, Beatriz, Asensio, Sergio, Guirado, Emilio, Valencia, Enrique, Berdugo, Miguel, Plaza, César, Martínez-Valderrama, Jaime, Mendoza, Betty J., García-Gómez, Miguel, Abedi, Mehdi, and Ahumada, Rodrigo J.

Subjects

*FIELD research, *GRAZING, *ECOSYSTEM services, *CLIMATE change, *SOCIAL dominance

Abstract

Increases in the abundance of woody species have been reported to affect the provisioning of ecosystem services in drylands worldwide. However, it is virtually unknown how multiple biotic and abiotic drivers, such as climate, grazing, and fire, interact to determine woody dominance across global drylands. We conducted a standardized field survey in 304 plots across 25 countries to assess how climatic features, soil properties, grazing, and fire affect woody dominance in dryland rangelands. Precipitation, temperature, and grazing were key determinants of tree and shrub dominance. The effects of grazing were determined not solely by grazing pressure but also by the dominant livestock species. Interactions between soil, climate, and grazing and differences in responses to these factors between trees and shrubs were key to understanding changes in woody dominance. Our findings suggest that projected changes in climate and grazing pressure may increase woody dominance in drylands, altering their structure and functioning. [ABSTRACT FROM AUTHOR]

Published

2024

14. Behavioural responses to mammalian grazing expose insect herbivores to elevated risk of avian predation.

Author

Zhu, Yu, Li, Xiaofei, Tu, Xiongbing, Risch, Anita C., Wang, Zhaojun, Ma, Quanhui, Jiang, Ming, Zou, Yuanchun, Wang, Deli, Inbar, Moshe, Hawlena, Dror, and Zhong, Zhiwei

Subjects

*CATTLE, *TROPHIC cascades, *FIELD research, *HERBIVORES, *GRAZING, *PREDATION

Abstract

Large mammalian herbivores (LMH) are important functional components and drivers of biodiversity and ecosystem functioning in grasslands. Yet their role in regulating food-web dynamics and trophic cascades remains poorly understood. In the temperate grasslands of northern China, we explored whether and how grazing domestic cattle (Bos taurus) alter the predator–prey interactions between a dominant grasshopper (Euchorthippus unicolor) and its avian predator the barn swallow (Hirundo rustica). Using two large manipulative field experiments, we found that in the presence of cattle, grasshoppers increased their jumping frequency threefold, swallows increased foraging visits to these fields sixfold, and grasshopper density was reduced by about 50%. By manipulatively controlling the grasshoppers' ability to jump, we showed that jumping enables grasshoppers to avoid being incidentally consumed or trampled by cattle. However, jumping behaviour increased their consumption rates by swallows 37-fold compared with grasshoppers that were unable to jump. Our findings illustrate how LMH can indirectly alter predator–prey interactions by affecting behaviour of avian predators and herbivorous insects. These non-plant-mediated effects of LMH may influence trophic interactions in other grazing ecosystems and shape community structure and dynamics. We highlight that convoluted multispecies interactions may better explain how LMH control food-web dynamics in grasslands. [ABSTRACT FROM AUTHOR]

Published

2024

15. Incorporating parrotfish bioerosion into the herbivory paradigm of coral reef resilience.

Author

Molina‐Hernández, Ana and Álvarez‐Filip, Lorenzo

Subjects

*CORAL reefs & islands, *RANGE management, *CORALS, *REEFS, *MARINE algae, *CORAL reef restoration

Abstract

Promoting resilience is highly relevant to preserving biodiversity and ecosystem functioning. For coral reefs, parrotfish protection emerged as a mainstream action for reversing the degradation experienced by these systems. The rationale is that restoring their populations will increase grazing activity and reinforce control of fast‐growing macroalgae, facilitating coral cover recovery. A lack of a link between parrotfish trends and macroalgae and coral cover trends at a large scale has, however, often been the case. Suggesting more complex underlying dynamics that should be reexamined. In this review, we discuss how lumping parrotfish species as if they were functionally redundant may obscure trends. And how a lack of appreciation of other functions around the parrotfish paradigm, specifically bioerosion, may have unforeseen and potentially adverse effects on degraded reefs. We show that bioerosion responded more directly and quickly to spatial and temporal changes in parrotfish assemblages than macroalgae consumption, arguably due to the varying vulnerability among Caribbean parrotfishes to fisheries and habitat loss. For highly degraded reefs, positive changes in parrotfish populations could hence compromise the remaining coral skeleton structures and the reef framework, further accentuating reef degradation, where increases in macroalgae consumption could not necessarily compensate for higher rates of bioerosion. [ABSTRACT FROM AUTHOR]

Published

2024

16. Large, but Dispersal‐Limited Populations of the Marsh Fritillary Euphydryas aurinia Persist on Abandoned Military Training Areas Three Decades After the End of the Cold War.

Author

Schröer, Cindy, Singer, David, and Kamp, Johannes

Subjects

*RANGE management, *CULTURAL landscapes, *MILITARY education, *NYMPHALIDAE, *PROTECTED areas

Abstract

Military training areas can host important biodiversity, due to the preservation of diverse, nutrient‐poor historical cultural landscapes and an insect‐friendly disturbance regime. In Europe, many training areas were abandoned after the end of the cold war in 1991 and the withdrawal of the Allied and Soviet forces. Many of these are now protected areas, and current management strategies vary from rewilding to active habitat management such as grazing or mowing. In a capture–release–recapture approach, marking 2418 individuals, we assessed the population size and movement patterns of the dry ecotype of the Marsh Fritillary Euphydryas aurinia Rottemburg 1775 on three former military training areas in Germany that varied in size and management (natural succession, mowing, and sheep‐/goat grazing). Euphydryas aurinia is a rare and declining butterfly species listed in Annex II of the European Union Habitats Directive. Jolly–Seber models revealed a large population of ca. 19,000 individuals on the largest study site and a smaller population at a second site, whereas recapture rates were too low to predict the population size reliably at a third site. Population densities were 190–194 butterflies ha−1 at the unmanaged, large site and 56–71 butterflies ha−1 at a smaller site grazed with sheep. Thirty‐nine percent of the recapture events occurred within the same 1‐ha‐study plot. The average minimum flight distance between the study plots was 313 m for males and 328 m for females. The maximum lifetime flight distance was 1237 m within 3 days. No dispersal was detected between study sites. Thirty years after cessation of the military use, the large former training site still held what likely is one of the largest populations of the species dry ecotype in Central Europe, including in areas where management ceased already in 1991. This suggests remarkable persistence of the species in areas without regular management, contrary to current opinion. However, regular flight distances seem not to be sufficient to connect the isolated habitat patches. It remains unknown how long the large population at the abandoned military area will persist without active habitat management. Careful, but active habitat management and restoration of habitat connectivity should thus be considered. [ABSTRACT FROM AUTHOR]

Published

2024

17. Predator‐specific mortality of sage‐grouse nests based on predator DNA on eggshells.

Author

Helmstetter, Nolan A., Conway, Courtney J., Roberts, Shane, Adams, Jennifer R., Makela, Paul D., and Waits, Lisette P.

Subjects

*SCOUTING cameras, *COYOTE, *NEST predation, *COW testing, *GRAZING, *LAND use, *SAGE grouse, *GROUSE

Abstract

Greater sage‐grouse (hereafter sage‐grouse; Centrocercus urophasianus) populations have declined across their range. Increased nest predation as a result of anthropogenic land use is one mechanism proposed to explain these declines. However, sage‐grouse contend with a diverse suite of nest predators that vary in functional traits (e.g., search tactics or hunting mode) and abundance. Consequently, generalizing about factors influencing nest fate is challenging. Identifying the explicit predator species responsible for nest predation events is, therefore, critical to understanding causal mechanisms linking land use to patterns of sage‐grouse nest success. Cattle grazing is often assumed to adversely affect sage‐grouse recruitment by reducing grass height (and hence cover), thereby facilitating nest detection by predators. However, recent evidence found little support for the hypothesized effect of grazing on nest fate at the pasture scale. Rather, nest success appears to be similar on pastures grazed at varying intensities. One possible explanation for the lack of observed effect involves a localized response by one or more nest predators. The presence of cattle may cause a temporary reduction in predator density and/or use within a pasture (the cattle avoidance hypothesis). The cattle avoidance hypothesis predicts a decreased probability of at least one sage‐grouse nest predator predating sage‐grouse nests in pastures with livestock relative to pastures without livestock present during the nesting season. To test the cattle avoidance hypothesis, we collected predator DNA from eggshells from predated nests and used genetic methods to identify the sage‐grouse nest predator(s) responsible for the predation event. We evaluated the influence of habitat and grazing on predator‐specific nest predation. We evaluated the efficacy of our genetic method by deploying artificial nests with trail cameras and compared the results of our genetic method to the species captured via trail camera. Our molecular methods identified at least one nest predator captured predating artificial nests via trail camera for 33 of 35 (94%) artificial nests. We detected nest predators via our molecular analysis at 76 of 114 (67%) predated sage‐grouse nests. The primary predators detected at sage‐grouse nests were coyotes (Canis latrans) and corvids (Corvidea). Grazing did not influence the probability of nest predation by either coyotes or corvids. Sagebrush canopy cover was negatively associated with the probability a coyote predated a nest, distance to water was positively associated with the probability a corvid predated a nest, and average minimum temperature was negatively associated with the probability that either a coyote or a corvid predated a nest. Our study provides a framework for implementing an effective, non‐invasive method for identifying sage‐grouse nest predators that can be used to better understand how management actions at local and regional scales may impact an important component of sage‐grouse recruitment. [ABSTRACT FROM AUTHOR]

Published

2024

18. The Effects of Different Grazing Periods on the Functional Traits of Leymus chinensis (Trin.) Tzvelev in a Typical Inner Mongolia Steppe.

Author

Xu, Hongbin, Zhang, Jiatao, Baoyin, Taogetao, Zhang, Lei, and Yuan, Ting

Subjects

*RANGE management, *PLANT biomass, *ENVIRONMENTAL indicators, *PHENOTYPIC plasticity, *LEAF area, *GRASSLANDS

Abstract

Plant functional traits are effective indicators and predictors of environmental change, revealing plants' ecological countermeasures and adaptability through phenotypic plasticity. We conducted a 6-year grazing experiment on typical temperate grassland to assess the impact of different grazing periods on the plasticity and variability of the functional traits of Leymus chinensis and the relationship between traits and individual plant biomass. Our study included four treatments: CK (enclosure), T1 (grazing in May and July), T2 (grazing in June and August), and T3 (grazing in July and September). The results for 13 functional traits indicated that the T3 treatment showed the smallest reduction in individual plant biomass, plant height, leaf area, stem length, and leaf length, making it the most effective type of grassland management and optimal for the maintenance and restoration of L. chinensis traits. Under T1, T2, and T3, the plasticity of stem weight, total leaf weight, total leaf area, and stem length was higher and crucial for regulating individual plant biomass. The results underscore that the changes and plasticity of dominant species under grazing treatments are key to understanding the relationship between ecosystem function and grassland management. This study provides a theoretical basis and data support for the adaptive utilization and restoration management of typical grassland resources. [ABSTRACT FROM AUTHOR]

Published

2024

19. Native Forbs Provide Pollinator Resources and Improve Forage Nutrient Composition, Animal Performance, and Pasture Productivity.

Author

Prigge, Jessica L., Bisangwa, Eric, Richwine, Jonathan D., Sykes, Virginia R., Ivey, Jennie L. Z., and Keyser, Patrick D.

Subjects

*RANGE management, *SUSTAINABLE agriculture, *GRAZING, *POLLINATORS, *DESMODIUM

Abstract

Pollinator declines and expectations for more sustainable agriculture, including pasture-based enterprises, bring attention to strategies to enhance the habitat value of grazing lands. We evaluated native warm-season grass (NWSG) pastures with (FORB) and without (CONT) interseeded native forbs in 2021–2023. An analysis was conducted using R with the significance set at p ≤ 0.05. The grass appeared to be weakened predominantly by grazing management practices. Forb density and mass had an inverse relationship in seasons two and three. Total forage mass declined in response to increased grazing days and weakened stands. The forage nutritive compositions differed, with more stable, season-long crude protein and lower fiber concentrations in late-season FORB, which supported higher bodyweight gains and season-long average daily gain. Black-eyed Susan (Rudbeckia hirta; BESU), lanceleaf coreopsis (Coreopsis lanceolata; LCOR), and showy ticktrefoil (Desmodium canadensis; STTF) were the most abundant forbs, and BESU, LCOR, and purple coneflower (Echinacea purpurea; PURC) produced long flowering windows. Cattle grazed STTF, cup plant (Silphium perfoliatum; CUPP), and oxeye sunflower (Helopsis helianthoides) the most. Under continuous stocking, a blend of BESU, LCOR, PURC, STTF, and CUPP produced acceptable cattle gains and provided pollinator resources, suggesting that this model may be a viable means to enhance the sustainability of pastures. [ABSTRACT FROM AUTHOR]

Published

2024

20. Grazing intensity alters network complexity and predator-prey relationships in the soil microbiome.

Author

Camuy-Vélez, Lennel A., Banerjee, Samiran, and Sedivec, Kevin

Subjects

*GRASSLAND conservation, *PREDATION, *VESICULAR-arbuscular mycorrhizas, *ECOSYSTEM dynamics, *SOIL biodiversity, *GRASSLANDS

Abstract

Grasslands are recognized as important reservoirs of soil biodiversity. Livestock grazing is implemented as a grassland management strategy to improve soil quality and enhance plant diversity. Soil microbial communities play a pivotal role in grassland ecosystems, so it is important to examine whether grazing practices affect the soil microbiome. Previous studies on grazing have primarily focused on bacteria and fungi, overlooking an important group--protists. Protists are vital in soil microbiomes as they drive nutrient availability and trophic interactions. Determining the impact of grazing on protists and their relationships with bacterial and fungal communities is important for understanding soil microbiome dynamics in grazed ecosystems. In this study, we investigated soil bacterial, fungal, and protist communities under four grazing levels: no grazing, moderate-use grazing, full-use grazing, and heavy-use grazing. Our results showed that heavy grazing led to a greater diversity of protists with specific groups, such as Discoba and Conosa, increasing in abundance. We also found strong associations between protist and bacterial/fungal members, indicating their intricate relationships within the soil microbiome. For example, the abundance of predatory protists increased under grazing while arbuscular mycorrhizal fungi decreased. Notably, arbuscular mycorrhizae were negatively associated with predatory groups. Furthermore, we observed that microbial network complexity increased with grazing intensity, with fungal members playing an important role in the network. Overall, our study reports the impact of temporal grazing intensity on soil microbial dynamics and highlights the importance of considering protist ecology when evaluating the effects of grazing on belowground communities in grassland ecosystems. IMPORTANCE The significance of this study lies in its exploration of the effects of temporal grazing intensity on the dynamics of the soil microbiome, specifically focusing on the often-neglected role of protists. Our findings provide insights into the complex relationships between protists, bacteria, and fungi, emphasizing their impact on trophic interactions in the soil. Gaining a better understanding of these dynamics is essential for developing effective strategies for grassland management and conservation, underscoring the importance of incorporating protist ecology into microbiome studies in grasslands. [ABSTRACT FROM AUTHOR]

Published

2024

21. Peripheral Population Status and Habitat Suitability Assessment of the Kiang (Equus kiang) on the Eastern Tibetan Plateau.

Author

Yang, Shuai, Yang, Yi, Feng, Bin, Hu, Lu, Dong, Xin, Dong, Huiqin, and Bai, Wenke

Subjects

*HABITAT conservation, *POPULATION density, *EQUUS, *GRAZING, *ACQUISITION of data

Abstract

Simple Summary: Shiqu County, in Sichuan Province, is the eastern edge of the distribution area of the kiang (Equus kiang) on the Tibetan Plateau. However, there is a lack of understanding about the kiang population and its habitat in this region. This study aims to assess the population and habitat status of kiangs. The results showed that the area of suitable habitat for kiangs is 3402.45 km2, with an estimated population of 1395.00 ± 272.20, and a population density of 0.41 ± 0.08/km2. These findings provide a scientific reference for the conservation of the kiang population and its habitat in the region. Shiqu County, Sichuan Province, forms the eastern edge of the distribution area of the kiang (Equus kiang). It is important to assess the population and habitat status of peripheral populations, as these play a significant role in the development of conservation strategies for kiangs. Based on field transect data collected from July to August 2023, this study predicted the suitable habitat distribution of kiangs in Shiqu County using a MaxEnt model and estimated the population size and density using the 'Distance' package. Additionally, it analyzed the responses of the group size of kiangs to environmental factors in Shiqu County. The results showed that the area of suitable habitat for kiangs is 3402.45 km2, accounting for 13.51% of the total area of Shiqu County. The estimated population was 1395.00 ± 272.20, with a population density of 0.41 ± 0.08/km2. Additionally, the group size of kiangs was significantly positively correlated with the distance from the road and grazing site. The distance from the grazing site, elevation, and temperature annual range are the main environmental factors affecting the distribution of kiangs. This study initially revealed the peripheral population Status and suitable habitat of the kiang on the eastern Tibetan Plateau, and the potential threat of grazing interference and road obstruction. The research results can provide a scientific reference for the population and habitat protection of kiangs in this area. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effect of Replacing Corn Grain and Soybean Meal with Field Peas at Different Levels on Feed Intake, Milk Production, and Metabolism in Dairy Cows under a Restrictive Grazing.

Author

Pulido, Ruben G., Beltran, Ignacio E., Aleixo, Jorge A., Morales, Álvaro G., Gutierrez, Marcelo, Ponce, Matias, and Melendez, Pedro

Subjects

*HOLSTEIN-Friesian cattle, *DAIRY cattle, *SOYBEAN meal, *GRAZING, *MAGIC squares, *MILK yield, *LACTATION in cattle, *RUMEN fermentation

Abstract

Simple Summary: In pasture-based dairy systems, supplementing the diet is crucial during periods when pasture availability is low. Field peas, which can be locally produced, offer relatively high concentrations of crude protein, along with significant energy content in the form of starch, all at a lower price. These qualities make field peas a sustainable alternative to traditional protein and energy sources such as soybean meal and corn grain. This study explored the impact of substituting traditional feeds with field peas in the concentrates of grazing dairy cows. Our findings indicate that using field peas maintains milk production and composition (protein and fat) without affecting intake or ruminal and blood parameters. This suggests that field peas are a viable alternative for feeding dairy cows, supporting consistent production under grazing conditions. This study assessed the effects of replacing soybean meal (SBM) and corn grain with field peas in the concentrate of grazing dairy cows on milk production, intake, ruminal fermentation, and blood indicators. Twelve multiparous lactating Holstein-Friesian cows were utilized in a replicated 3 × 3 Latin square design, comprising three periods and three treatments: (1) Pea-0 (Control diet): 6 kg dry matter (DM) of fresh pasture, 7.2 kg DM of grass silage, and 7 kg DM of a concentrate containing 0% pea; (2) Pea-30: Control diet with the concentrate composed of 30% pea; (3) Pea-60: Control diet with the concentrate composed of 60% pea. The effect of treatments on productive and metabolic parameters was evaluated using linear-mixed models. Pasture and total DM intake, milk production, and composition were unaffected by treatments. Despite the concentrates being isonitrogenous and isoenergetic, crude protein (CP) intake was slightly higher in Pea-30 and significantly higher in Pea-60 due to higher pasture CP content in the pasture grazed by these groups, leading to higher milk urea content, though within recommended ranges. Blood parameters showed no significant changes, except for plasma β-hydroxybutyrate, which was lowest in the Pea-60 treatment; however, all values were within ranges not indicative of subclinical ketosis. Ruminal fermentation parameters were similar across treatments. These findings support the use of field peas as a viable alternative to replace SBM and corn grain in concentrates, enabling similar milk production and composition in grazing dairy cows. [ABSTRACT FROM AUTHOR]

Published

2024

23. Assessment of in vitro digestibility and postdigestion peptide release of mare milk in relation to different management systems and lactation stages.

Author

Blanco-Doval, Ana, Sousa, Raquel, Barron, Luis Javier R., Portmann, Reto, Egger, Lotti, and Aldai, Noelia

Subjects

*PEPTIDES, *INFANT nutrition, *COMPOSITION of milk, *PROTEIN structure, *MILK quality, *LACTATION, *MILK proteins

Abstract

The list of standard abbreviations for JDS is available at adsa.org/jds-abbreviations-24. Nonstandard abbreviations are available in the Notes. Mare milk has a unique protein composition that makes it a preferred option for adult and infant nutrition. Several functional properties have been attributed to this milk, but with little current evidence. In fact, knowledge on mare milk composition is still limited. In particular, studies addressing the performance of mare milk proteins during human gastrointestinal digestion are scarce, which limits the understanding of mare milk nutritional quality and functionality. For this reason, the present study describes the digestibility of mare milk proteins and the release of peptides as affected by management and lactation stage, factors which are known to affect milk composition. Mare milk samples from 3 different farms collected during 6 mo of lactation (n = 54) were subjected to a static in vitro gastrointestinal model to measure peptide release and protein digestibility. In the present study, a detailed description of protein and individual amino acid behavior during the digestion process was given. For the first time, digestion of the 2 equine β-lactoglobulin isoforms (I and II) was described individually. In addition, it was found that lactation stage and management system can significantly affect protein digestibility and peptide release during gastrointestinal digestion of mare milk. Presumably, differences in the composition of mare milk influence the protein structure and enzyme accessibility, which might have an impact on digestion behavior. Although no specific bioactive peptides were identified, several precursors of previously described bioactive peptides were found. These findings could support the idea of mare milk as a food with added value. [ABSTRACT FROM AUTHOR]

Published

2024

24. Intake profile, milk production, and energy balance of early-lactation spring-calving Holstein Friesian and Jersey × Holstein Friesian dairy cows in high-utilization pasture-based systems.

Author

Walsh, S., Delaby, L., Kennedy, M., Galvin, N., McKay, Z.C., and Egan, M.

Subjects

*PREGNANCY in animals, *DAIRY cattle, *MILK yield, *COWS, *GRAZING, *LACTATION, *LACTATION in cattle

Abstract

The list of standard abbreviations for JDS is available at adsa.org/jds-abbreviations-24. Nonstandard abbreviations are available in the Notes. Early lactation is a critical period for dairy cows, as energy requirements rapidly increase with the onset of lactation; however, early-lactation DMI in pasture-based systems are under measured. The objectives of this study were (1) to measure and profile total DMI (TDMI) and animal performance of dairy cows during early lactation in a pasture-based system, (2) to investigate early-lactation energy balance in pasture-based systems, and (3) to examine production efficiencies, including TDMI and milk solids production per 100 kg of BW. Eighty spring-calving dairy cows were allocated to a grazing group as they calved over a 2-yr period (2021 and 2022). Cows were offered a daily herbage allowance to achieve a postgrazing sward height of 4 cm, with silage supplementation when necessary due to inclement weather. Total DMI was measured using the n-alkane technique over a 12-wk period from February 1, 2021, to April 23, 2022. Total DMI and daily milk yield were significantly affected by parity with both variables being greatest for third-parity animals (17.7 kg of DM and 26.3 kg/cow per day, respectively), lowest for first parity (13.2 kg of DM and 19.6 kg/cow per day, respectively) and intermediate for second-parity animals (16.8 kg of DM and 24.1 kg/cow per day, respectively). Peak TDMI was reached on wk 10 for first-parity animals (14.6 kg of DM), wk 11 for second parity animals (19.3 kg of DM) and wk 12 for third-parity animals (19.9 kg of DM). Parity also had a significant effect on unité fouragère lait (UFL; feed units for milk) feed balance as first-parity animals experienced a greater degree of negative energy balance (−3.2 UFL) compared with second- and third-parity animals (−2.3 UFL). Breed and parity had an effect on production efficiencies during the first 12 wk of lactation as Jersey × Holstein Friesian cows had greater TDMI/100 kg of BW and milk solids/100 kg of BW compared with Holstein Friesian cows. [ABSTRACT FROM AUTHOR]

Published

2024

25. Transcriptome Responses in Medicago sativa (Alfalfa) Associated with Regrowth Process in Different Grazing Intensities.

Author

Sun, Dingyi, Wang, Yalin, and Zhao, Na

Subjects

PLANT genes, GENE expression, PROTEIN kinases, DISEASE resistance of plants, GRAZING

Abstract

Medicago sativa L. (alfalfa), a perennial legume, is generally regarded as a valuable source of protein for livestock and is subjected to long and repeated grazing in natural pastures. Studying the molecular response mechanism of alfalfa under different grazing treatments is crucial for understanding its adaptive traits and is of great significance for cultivating grazing-tolerant grass. Here, we performed a transcriptomic analysis to investigate changes in the gene expression of M. sativa under three grazing intensities. In total, 4184 differentially expressed genes (DEGs) were identified among the tested grazing intensities. The analysis of gene ontology (GO) revealed that genes were primarily enriched in cells, cellular processes, metabolic processes, and binding. In addition, two pathways, the plant–pathogen interaction pathway and the plant hormone signal pathway, showed significant enrichment in the Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis. Protein kinases and transcription factors associated with hormones and plant immunity were identified. The plant immunity-related genes were more activated under high grazing treatment, while more genes related to regeneration were expressed under light grazing treatment. These results suggest that M. sativa exhibits different strategies to increase resilience and stress resistance under various grazing intensities. Our findings provide important clues and further research directions for understanding the molecular mechanisms of plant responses to grazing. [ABSTRACT FROM AUTHOR]

Published

2024

26. Forest encroachment in Eastern European forest-steppes at a decadal time scale.

Author

Erdős, László, Ónodi, Gábor, Tölgyesi, Csaba, Kröel-Dulay, György, Bátori, Zoltán, Aradi, Eszter, Török, Péter, Ho, Khanh Vu, Puspitasari, Indri, and Körmöczi, László

Subjects

AERIAL photographs, GRASSLANDS, ECOSYSTEMS, GRAZING, SOILS

Abstract

In the Eurasian forest-steppe, with increasing aridity, the balance between naturally co-existing forest and grassland patches is expected to shift towards grassland dominance in the long run, although feedback mechanisms and changes in land-use may alter this process. In this study, we compared old and recent aerial photographs of Hungarian forest-steppes to find out whether and how the forest proportion and the number of forest patches change at the decadal time scale. The percentage area covered by forest significantly increased in all study sites. The observed forest encroachment may be a legacy from earlier land-use: due to ceased or reduced grazing pressure, forests are invading grasslands until the potential forest cover allowed by climate and soil is reached. The number of forest patches significantly increased at one site (Fülöpháza), while it decreased at two sites (Bugac and Orgovány) and showed no significant change at the fourth site (Tázlár). This indicates that forest encroachment can happen at least in two different ways: through the emergence of new forest patches in the grassland, and through the extension and coalescence of already existing forest patches. Though the present work revealed increasing tree cover at a decadal time scale, the dynamic process should be monitored in the future to see how the vegetation reacts to further aridification. This could help devise a conservation strategy, as the woody/non-woody balance has a profound influence on basic ecosystem properties. [ABSTRACT FROM AUTHOR]

Published

2024

27. Estimation of Dry Matter Yield in Mediterranean Pastures: Comparative Study between Rising Plate Meter and Grassmaster II Probe.

Author

Serrano, João, Franco, Júlio, Shahidian, Shakib, and Moral, Francisco J.

Subjects

PASTURE management, GROWING season, SPRING, SAMPLING (Process), GRAZING

Abstract

This study evaluates two expedient electronic sensors, a rising plate meter (RPM) and a "Grassmaster II" capacitance probe (GMII), to estimate pasture dry matter (DM, in kg ha−1). The sampling process consisted of sensor measurements, followed by pasture collection and a laboratory reference analysis. In this comparative study, carried out throughout the 2023/2024 pasture growing season, a total of 288 pasture samples were collected in two phases (calibration and validation). The calibration phase (n = 144) consisted of measurements on three dates (6 December 2023, 29 February and 10 May 2024) in 48 georeferenced sampling areas of the experimental field "Eco-SPAA" ("MG" field), located at Mitra farm (Évora, Portugal). This pasture is a permanent mixture of various botanical species (grasses, legumes, and others) grazed by sheep, and is representative of biodiverse dryland pastures. The validation phase (n = 144) was carried out between December 2023 and April 2024 in 18 field tests (each with eight pasture samples), in three types of representative pastures: the same mixture for grazing ("MG" field), a commercial and annual mixture for cutting (mowing) and conservation ("MM" field), and legumes for grazing ("LG" field). The best estimation model for DM was obtained based on measurements carried out in February in the case of the GMII probe (R2 = 0.61) and December 2023 and February 2024 in the case of RPM (R2 = 0.76). The estimation decreased very significantly for both sensors based on measurements carried out in May (spring). The validation phase showed greater accuracy (less RMSE) in "MG" field tests (RMSE of 735.4 kg ha−1 with GMII and 512.3 kg ha−1 with the RPM). The results open perspectives for other works that would allow the testing, calibration, and validation of these electronic sensors in a wider range of pasture production conditions, in order to improve their accuracy as decision-making support tools in pasture management. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effects of Eccentricity and Horizontal Electric Field on the Characteristics and Outcomes of Binary Collisions of Water Drops.

Author

Pawar, Vidya, Bhalwankar, Rohini, and Kamra, A. K.

Subjects

*DROP size distribution, *ELECTRIC field effects, *ELECTRIC fields, *KINETIC energy, *GRAZING

Abstract

Effects of eccentricity and horizontal electric field (EH) on the binary‐collision outcomes of water drops are examined using numerically calculated collision characteristics from previous studies and results of simulation experiment conducted by the authors. For a fixed collision kinetic energy (CKE), filament breakups can occur at all values of eccentricity but events of coalescence decrease, and that of sheet breakup increase with increasing eccentricity in absence of EH. However, as EH increases to ∼300 kVm−1 it opposes the variability of the coalescence and sheet breakup events with eccentricity. When EH exceeds ∼300 kVm−1 the collision outcomes might be determined only by the CKE and EH. The calculated value of coalescence efficiency and total number of fragments after a binary collision decreases with an increase in EH. It is argued that an electric field can significantly modify drop size distribution in thunderclouds and needs to be considered for development of precipitation. Plain Language Summary: Growth of water drops in clouds is mostly governed by the drop size distribution in them. When two drops collide with each other, they can either coalesce to form a single larger drop, or disintegrate into many smaller drops, or bounce back. These different outcomes after their collisions are mostly determined by whether the collisions are centric where the eccentricity of the collision is zero or grazing where the eccentricity is one or somewhere in between the two extremes. The present study shows that if the collisions occur in presence of a horizontal electric field, it opposes the effect of eccentricity on the outcomes of the collisions. In this study, simultaneous effects of eccentricity and horizontal electric field are examined from numerically calculated collision characteristics from previous studies and utilizing the results of a simulation experiment recently conducted by the authors. Simultaneous effects of eccentricity and electric field on coalescence efficiency and total and spectral size distribution of fragments generated after the collision have also been evaluated. The results suggest that the electric field can significantly modify drop size distribution in thunderclouds and need to be considered for the development of precipitation. Key Points: Horizontal electric field opposes the variability of coalescence/sheet breakup of water drops with eccentricity in binary collisionsNumber of fragments close to small (large) parent drop size decreases (increases) after collisions in the higher horizontal electric fieldBinary collisions in horizontal electric fields can substantially modify drop size distribution in thunderclouds [ABSTRACT FROM AUTHOR]

Published

2024

29. Long-term grazing changed the spatial distributions of dominant species in typical steppe of Inner Mongolia.

Author

Li, Mengzhen, Wu, Jinrui, Yun, Xiangjun, Lv, Shijie, Xu, Bo, Yang, Junyi, Zhao, Jiale, and Zhang, Le

Subjects

*STATISTICAL sampling, *GRAZING, *SPECIES distribution, *PLANT communities, *STEPPES

Abstract

Dominant species occupy a pivotal role in plant community, influencing the structure and function of the ecosystem. The spatial distributions of dominant species can react to the effect of different grazing intensities, thereby reflecting their tolerance and adaptive strategies toward grazing. In this study, geostatistical methods were mainly used to study the spatial distribution characteristics of Stipa krylovii Roshev. and Leymus chinensis (Trin.) Tzvel. species at two interval scales (quadrat size 5 m × 5 m, 10 m × 10 m) and two treatments (free grazing, FG, 1.66 sheep·ha− 1·a− 1; control, CK, 0 sheep·ha− 1·a− 1) in typical steppe of Inner Mongolia. A systematic sampling method was used in each 100 m × 100 m representative sample plots to obtain the height, coverage, and density of all species in the community. The results showed that grazing altered the concentrated distribution of S. krylovii and the spatial mosaic distribution pattern of S. krylovii and L. chinensis while having no effect on the spatial clumped distribution of L. chinensis. It also found that the spatial distributions of dominant species are primarily affected by structural factors, and random factors such as long-term grazing led to a transition of S. krylovii from a concentrated distribution to a small patchy random pattern should not be overlooked. Our findings suggest that long-term grazing alters the spatial distribution pattern of dominant species and that adaptive strategies may be the key for maintaining the dominant role of structural factors. [ABSTRACT FROM AUTHOR]

Published

2024

30. Effects of livestock grazing on rangeland condition, plant species richness and wild ungulate population in a semi‐arid savannah.

Author

Beyene, Dejene, Berhanu, Yonas, and Angassa, Ayana

Subjects

*SPECIES diversity, *PLANT species, *CHEMICAL composition of plants, *GRAZING, *LIVESTOCK, *RANGELANDS

Abstract

This field study in a semi‐arid savannah at Senkelle Swayne's Hartebeest Sanctuary, Ethiopia, examined livestock grazing effects on rangeland condition, plant species composition and richness, and population of the endangered Swayne's hartebeest (Alcelaphus buselaphus swaynei). Rangeland condition was analysed using a common protocol for the assessment of semi‐arid rangelands. A total count method was used to estimate ungulate numbers. Grazing reduced all measures of range condition and productivity and affected the composition and richness of the herbaceous species. Grazing also induced an increase in the density and number of encroaching woody species Vachellia seyal and Senegalia senegal. The population of the Swayne's hartebeest significantly affected by livestock grazing (mean number of hartebeests observed under moderately and lightly grazed sites were 10.00 ± 2.49 and 6.75 ± 2.06, respectively). No individual hartebeest was observed roaming in the heavily grazed zone, which implies an effective reduction in the extent of habitat available for the hartebeest. The overall condition of the rangeland was poor. Measures to reduce livestock presence in areas from which the hartebeest has been displaced and controlled seasonal livestock grazing within non‐sensitive parts of the Sanctuary may benefit the hartebeest. Coupled with these, livestock exclusions for up to a year and interseeding may help improve rangeland condition and hartebeest's habitat. [ABSTRACT FROM AUTHOR]

Published

2024

31. Small grazing angle reflection and the sound siphon effect over a low velocity layer of sediments.

Author

Zhou, Ji-Xun, Qin, Jixing, Li, Zhenglin, and Zhang, Xuezhen

Subjects

*ACOUSTIC field, *REFLECTANCE, *WATER depth, *SIPHONS, *GRAZING

Abstract

The low-order normal modes with small grazing angles (SGA) often control long-range sound field characteristics in shallow water. The SGA reflection loss from a half-space low-velocity bottom (LVB) is independent of the sound attenuation, except around the angle of complete transmission; the SGA bottom reflection loss (BRL) from a seafloor with a top low-velocity layer is very insensitive to the LVB attenuation also, except around a few selected frequencies. Thus, the "seafloor velocity-attenuation coupling" problem will be more fatal for LVB geo-acoustic inversions. The dispersion equation of the normal modes in the LVB layer is coincidentally the same as the singularity expression of the SGA reflection coefficient in the water column, resulting in a sound siphon effect that causes the abnormally high SGA BRL and transmission loss in the water at the siphon frequencies. The siphon effect is very sensitive to seafloor acoustic parameters, might offer a physical base for geo-acoustic inversion, and show a dim light in a "gray area" for inverting the LVB sound attenuation at low to mid frequencies. As an example, the acoustic siphon effect and related seafloor geophysical parameters forming it in the Yellow Sea are reported in this paper. [ABSTRACT FROM AUTHOR]

Published

2024

32. Comment on: "Anomalous reflection from a two-layered marine sediment" [J. Acoust. Soc. Am. 155, 1285–1296 (2024)] (L).

Author

Gudimenko, Aleksei I., Zakharenko, Alyona D., and Petrov, Pavel S.

Subjects

*REFLECTANCE, *MARINE sediments, *DEPTH sounding, *MUD, *GRAZING

Abstract

Buckingham [(2024). J. Acoust. Soc. Am. 155, 1285–1296] analyzed the dependence of the reflection coefficient on the grazing angle in two-layer marine sediment model. The upper layer in his model consists of a fine-grained material (mud), while seawater and the basement below the mud layer are treated as homogeneous halfspaces. Buckingham's analyses revealed several narrow spikes in this dependence that appeared only in the presence of a sound velocity gradient in the mud layer, a phenomenon he called acoustic glint. His derivation was accomplished for certain specific dependencies of the sound velocity on the depth. Surprisingly, the authors appear to reach the conclusion that for a slightly different vertical sound speed profile in the mud layer the spikes are no longer present in the dependence of the reflection coefficient on the grazing angle. More precisely, the same problem is examined in this letter for the case of an n 2 -linear layer (often called Airy medium). Acoustic glint effect is therefore very sensitive to the exact parametrization of the mud layer. [ABSTRACT FROM AUTHOR]

Published

2024

33. Segmented propagation model for the paths and travel times of surface duct leaky signals.

Author

Gong, Guangyu, Duan, Rui, and Yang, Kunde

Subjects

*GRAZING, *SIGNALS & signaling, *OCEAN, *ANGLES

Abstract

In the deep ocean environment with a surface duct, sound propagating within the duct leaks into the geometric shadow zone below it. However, the propagation paths and time of these leaky parts have not been fully characterized. This paper investigates the mechanism of surface duct leaky (SDL) signals based on normal mode theory. It reveals that SDL signals are caused by specific modes with grazing angles close to zero at the bottom of the surface duct. Combining the theory of diffracted sound rays, the study proposes a Segmented Propagation model (SPM) for SDL signals. The propagation paths of SDL signals are divided into three segments: S1, which extends from the source to the surface duct; S2, the segment propagating within the surface duct; and S3, the segment leading from the surface duct to the receiver. The proposed SPM describes the propagation mechanism of SDL signals and allows for precise calculation of their propagation time. Experimental data from the western Pacific are used to verify the SPM. [ABSTRACT FROM AUTHOR]

Published

2024

34. Changing Asian Mountain Steppes Require Better Conservation for Endangered Argali Sheep.

Author

Callaghan, Terry V., Volkova, Irina I., Volkov, Igor V., Kuzhlekov, Alexey O., Gulyaev, Denis I., and Shaduyko, Olga M.

Subjects

*INDIGENOUS peoples, *CLIMATE change, *PROTECTED areas, *GRAZING, *SHEEP

Abstract

We present a rare insight into the biodiversity of a remote, mountainous area of central Asia and outline challenges to conserve the critically endangered keystone argali (Ovis ammon ammon L.), the largest subspecies of mountain sheep. Existing conservation is set in the context of competition with livestock grazing and disturbance by local pastoralists. We suggest how this pressure would increase as pastures become degraded by a future more arid climate. Focusing on the transboundary population, migrating between the Russian and Mongolian Altai over the Sailugem Ridge, we track historical population numbers. Due to increased protection, the argali's local population is currently growing. However, most argali populations live outside the protected areas where they are forced to compete for forage with livestock. Due to ever-increasing anthropogenic pressures, argali has almost reached the region's environmental capacity, so the number of local populations is decreasing. Consequently, even the current situation requires more areas of protection, and climate change will accelerate pasture degradation, thereby further increasing competition with livestock. We present various ways to predict the impacts of changes in climate, e.g., the "7 M's approach" and grazing pressure and then recommend additional conservation measures acceptable for the indigenous population of traditional pastoralists. [ABSTRACT FROM AUTHOR]

Published

2024

35. High species richness of sheep‐grazed sand pastures is driven by disturbance‐tolerant and weedy short‐lived species.

Author

Kovacsics‐Vári, Gergely, Sonkoly, Judit, Tóth, Katalin, McIntosh‐Buday, Andrea, Díaz Cando, Patricia Elizabeth, Törő‐Szijgyártó, Viktória, Balogh, Nóra, Guallichico Suntaxi, Luis Roberto, Espinoza Ami, Francis David, Matus, Gábor, Tóthmérész, Béla, and Török, Péter

Subjects

*PLANT biomass, *SPECIES diversity, *GRAZING, *PLANT species, *FUNCTIONAL groups, *ANIMAL litters

Abstract

We selected 15 sheep‐grazed sand pastures along a gradient of increasing grazing intensity to study the fine‐scale patterns of main biomass fractions (green biomass, litter) and that of plant species and functional groups (life forms and social behaviour types). We classified them into five grazing intensity levels based on stocking density, proximity to drinking and resting places and the number of faeces. We aimed to answer the following questions: (i) How does increasing intensity of sheep grazing affect the amount of green biomass, the species richness and their relationship in sand pastures? (ii) How does increasing intensity of sheep grazing affect the biomass of perennial and short‐lived graminoids and forbs? (iii) How does the disturbance value—expressed in the biomass ratio of disturbance‐tolerant and ruderal species—change along the gradient of grazing intensity? A unimodal relationship between green biomass and species richness was detected; however, the ordination (canonical correspondence analysis, CCA) showed no clustering of pastures subjected to the same levels of grazing intensity. Along the grazing intensity gradient we found an increasing trend in species richness and significant differences in green biomass (decreasing trend), litter (decreasing trend), graminoids (decreasing trend) and short‐lived forbs (increasing trend). We found an increasing amount of disturbance‐tolerant and ruderal species with increasing grazing intensity. We suggest that we might need to use multiple scales for sampling and a fine‐scale assessment of grazing intensity. Our findings might be instructive for pastures in densely populated regions, which are prone to the encroachment of disturbance‐tolerant and ruderal species. [ABSTRACT FROM AUTHOR]

Published

2024

36. Development of an IoT-Based Device for Data Collection on Sheep and Goat Herding in Silvopastoral Systems.

Author

Araujo, Mateus, Leitão, Paulo, Castro, Marina, Castro, José, and Bernuy, Miguel

Subjects

*GLOBAL Positioning System, *SUSTAINABILITY, *SILVOPASTORAL systems, *ANIMAL herds, *PASTORAL systems, *GRAZING

Abstract

To evaluate the ecosystem services of silvopastoral systems through grazing activities, an advanced Internet of Things (IoT) framework is introduced for capturing extensive data on the spatial dynamics of sheep and goat grazing. The methodology employed an innovative IoT system, integrating a Global Navigation Satellite System (GNSS) tracker and environmental sensors mounted on the animals to accurately monitor the extent, intensity, and frequency of grazing. The experimental results demonstrated the high performance and robustness of the IoT system, with minimal data loss and significant battery efficiency, validating its suitability for long-term field evaluations. Long Range (LoRa) technology ensured consistent communication over long distances, covering the entire grazing zone and a range of 6 km in open areas. The superior battery performance, enhanced by a solar panel, allowed uninterrupted operation for up to 37 days with 5-min interval acquisitions. The GNSS module provided high-resolution data on movement patterns, with an accuracy of up to 10 m after firmware adjustments. The two-part division of the device ensured it did not rotate on the animals' necks. The system demonstrated adaptability and resilience in various terrains and animal conditions, confirming the viability of IoT-based systems for pasture monitoring and highlighting their potential to improve silvopastoral management, promoting sustainable practices and conservation strategies. This work uniquely focuses on documenting the shepherd's role in the ecosystem, providing a low-cost solution that distinguishes itself from commercial alternatives aimed primarily at real-time flock tracking. [ABSTRACT FROM AUTHOR]

Published

2024

37. The association between somatic cell count and selective dry cow therapy, milking routine, and dry cow management practices in early-lactation cows from 21 commercial grazing dairy herds.

Author

Clabby, C., Valldecabres, A., Dillon, P., O'Sullivan, K., Arkins, S., Flynn, J., McCarthy, S., and Silva Boloña, P.

Subjects

*ANIMAL herds, *MILK yield, *DAIRY cattle, *BACTERIAL growth, *SOMATIC cells, *MILK contamination, *GRAZING

Abstract

The list of standard abbreviations for JDS is available at adsa.org/jds-abbreviations-24. Nonstandard abbreviations are available in the Notes. This observational study aimed to explore the association of farmer-driven selective dry cow therapy (DCT), milking routine and dry cow management practices with SCC in early-lactation cows from 21 commercial dairy herds. Milking routine practices evaluated referred to cow preparation for milking, in-lactation mastitis management, and recording. Dry cow management practices related to dry cow environment and cleaning, dry-off procedure, milk cessation strategy and calving environment. Data from 2,016 multiparous cows in 21 commercial spring-calving grazing dairy herds were available for the study. Herd owners self-reported DCT (the assignment and administration of DCT was at the discretion of the herd owners with no involvement from the research team), management practices during milking and the dry period. Cow-level last test-day SCC records in 2020 (range = 105–285 DIM) and first test-day records in 2021 (range = 5–60 DIM) were obtained from milk recording databases. Quarter-level milk sampling was carried out on all cows in late lactation of 2020 (range = 240–261 DIM) for bacterial culturing. Bacteriological results were used to define cows with IMI when ≥1 quarter sample resulted in bacterial growth and there were no contaminated samples from that cow. Mixed model analyses were used to evaluate the association of selective DCT, milking routine, and dry cow management practices with cows' first test-day log 10 SCC (logSCC) in 2021. At dry-off in 2020, 47.6% of the cows were administered an internal teat sealant alone (ITS), while 52.4% were administered an antibiotic plus an internal teat sealant (AB+ITS). The mean herd-level percentage of cows with IMI was 19.7% (range = 9.8%–39.5%); Staphylococcus aureus accounted for the majority of cow-level IMI (89.9%, 357/397). Between herds, the proportion of cows administered ITS ranged from 17.7% (14/79; in a herd with an IMI prevalence of 10.1%) to 86.8% (66/76; in a herd with an IMI prevalence of 27.6%). In total, 11.8% (105/889) and 29.8% (292/980) of cows that were administered ITS or AB+ITS had an IMI in late lactation 2020, respectively. The mean untransformed SCC at the last test day in 2020 of cows administered ITS and AB+ITS was 55,000 and 197,200 cells/mL, respectively. The statistical analysis showed a significant interaction between selective DCT and milk yield at last test-day in 2020; cows with a milk yield of 15 kg and administered ITS had a 0.1 higher (untransformed SCC of 19,000 cells/mL higher) first test-day logSCC compared with cows administered AB+ITS. Additionally, greater parity, IMI in late lactation, higher logSCC at the last test-day in 2020 and longer dry periods were associated with higher logSCC at the first test-day in 2021. The current study identified cow- and herd-level management practices that could aid dairy farmers in improving the outcome of selective DCT and decrease early lactation SCC. [ABSTRACT FROM AUTHOR]

Published

2024

38. Dynamic adaptation of phytoplankton vertical migration to changing grazing and nutrient conditions.

Author

Salonen, Kalevi, Järvinen, Marko, Aalto, Taavi, Likolammi, Markit, Lindblom, Visa, Münster, Uwe, and Sarvala, Jouko

Subjects

*GRAZING, *DAPHNIA, *CRYPTOMONADS, *BIOMASS, *WHITEFISHES, *PHYTOPLANKTON

Abstract

Despite the ubiquitous occurrence of vertical migration of phytoplankton its quantitative significance remains poorly known. We eliminated a dense Daphnia population in a pond by introducing whitefish fingerlings, and assessed the effects on the vertical migration of dominating motile phytoplankton. At the highest abundance of Daphnia, cryptophytes reduced grazing losses by staying in the hypolimnion day and night, but Mallomonas species armoured by silica bristles remained in the epilimnion. After the fish introduction, phytoplankton was released from Daphnia grazing pressure, allowing cryptophytes to occur in the epilimnion also at noon. At the same time, increased phytoplankton biomass exacerbated the nutrient depletion. Cryptophytes compensated for that by migrating into the anoxic hypolimnion, whereupon their growth rates increased. The collapse of Daphnia was also associated with a temporary increase in nutrient regeneration by enzyme activities and decreases in total nutrient concentration and bacterial biomass in the whole water column. Our results show that cryptophytes can dynamically modify their vertical migration to balance between the exploitation of various nutrient resources and the risk of becoming eaten. Hypolimnetic nutrient resources can be quantitatively more important for phytoplankton than previously assumed. [ABSTRACT FROM AUTHOR]

Published

2024

39. The day after mowing: Time and type of mowing influence grassland arthropods.

Author

Berger, Johanna L., Staab, Michael, Hartlieb, Margarita, Simons, Nadja K., Wells, Konstans, Gossner, Martin M., Vogt, Juliane, Achury, Rafael, Seibold, Sebastian, Hemp, Andreas, Weisser, Wolfgang W., and Blüthgen, Nico

Subjects

INSECT conservation, ARTHROPOD diversity, RANGE management, SPECIES diversity, AGRICULTURE, GRASSLANDS, ARTHROPODA

Abstract

Recent losses in the abundance and diversity of arthropods have been documented in many regions and ecosystems. In grasslands, such insect declines are largely attributed to land use, including modern machinery and mowing regimes. However, the effects of different mowing techniques on arthropods remain poorly understood. Using 11 years of data from 111 agricultural grassland plots across Germany, we analyzed the influence of various grassland management variables on the abundance and abundance‐accounted species richness of four arthropod orders: Araneae, Coleoptera, Hemiptera, and Orthoptera. The analysis focused on detailed mowing information, for example, days after mowing and mower type, and compared their effect with other aspects of grassland management, that is, rolling, leveling, fertilization, and grazing. We found strong negative effects of mowing on all four arthropod orders, with arthropod abundance being lowest directly after mowing and steadily increasing to three to seven times the abundance after 100 days post‐mowing. Likewise, Hemiptera and Coleoptera species richness was 30% higher 100 days after mowing. Mower width showed a positive effect on Orthoptera abundance, but not on the other arthropods. Arthropod abundance and Coleoptera species richness were lowest when a mulcher was used compared to rotary or bar mowers. In addition to mowing, intensive grazing negatively affected Orthoptera abundance but not the other orders. Mowing represents a highly disturbing and iterative stressor with negative effects on arthropod abundance and diversity, likely contributed by mowing‐induced mortality and habitat alteration. While modifications of mowing techniques such as mower type or mowing height and width may help to reduce the negative impact of mowing on arthropods, our results show that mowing itself has the most substantial negative effect. Based on our results, we suggest that reduced mowing frequency, omission of mowing in parts of the grassland (refuges), or extensive grazing instead of mowing have the greatest potential to promote arthropod populations. [ABSTRACT FROM AUTHOR]

Published

2024

40. Effect of Grazing on Plant and Soil Parameters of Steppe Pastures on Mount Aragats, Armenia.

Author

Navasardyan, Marine, Sargsyan, Tatevik, Daveyan, Harutyun, Mezhunts, Bagrat, and Abraham, Eleni M.

Subjects

RANGE management, BIODIVERSITY conservation, TOPOGRAPHY, GRAZING, SOIL fertility

Abstract

Steppe pastures are characteristic of the Armenian landscape and play an important role in supporting livelihoods and biodiversity conservation. The productivity and biodiversity of steppe pastures depend on grazing management, soil types, and climatic and topographical characteristics. As a whole, they form local small-scale sites. Our data on five study sites located on the southeast slope of Mt. Aragats summarized the impact of sites and grazing on canopy height; productivity; grass, legume, and forb biomass; nitrogen, phosphorus, and potassium concentrations; pH; and litter contents in the soil. Five grazed and ungrazed plots (ca. 600–800 m2) were established at each study site. Within each plot, two permanent 40 m long transects were installed. The canopy height was recorded in ungrazed and freely grazed plots. The aboveground biomass was cut at the soil surface from May to June; grouped into grass, legumes, and forbs; dried; and weighed. Soil samples were collected in every ungrazed and freely grazed plot. The results indicated that grazing decreased the plant parameters and nitrogen and litter content across all sites, while it had no effect on the phosphorus and potassium content or the pH. It seems that plant parameters, as well as soil parameters, were more affected by the management strategy than by the topographical and climatic features of the sites, as revealed via redundancy analysis. Our results suggest that it is important to introduce livestock rotation practices for sites with respect to the sustainable management of steppe pastures. This management strategy could ensure ecosystem services, high forage quality, and soil fertility. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of Grazing and Shrub Management on Species Composition and Soil Properties in Patagonian Grasslands.

Author

Vogel, Braian, Molina, Lucia, Rostagno, César M., and La Manna, Ludmila

Subjects

SHEEP farming, SOIL erosion, ARID regions, GRAZING, SPECIES

Abstract

Historical sheep farming in the Patagonian drylands has led to reduced grass cover, soil erosion, and shrub encroachment, compromising ecosystem function. Effective restoration requires managing shrub cover, bare soil, and patch connectivity through various strategies. This study evaluates rehabilitation interventions in a grass-steppe ecosystem, comparing grazed and ungrazed areas. Over three years, we tested the following: (a) mechanical shrub cutting with biomass redistribution, and (b) enhancing patch connectivity with Pinus spp. branch piles, alongside controls, in eighteen 5 m × 5 m plots invaded by Mulinum spinosum. Half of the plots were fenced to exclude grazing, resulting in six treatment combinations. We monitored soil properties, vegetation cover, and species composition. The treatments explained twice as much of the variation in community composition as the annual climatic variations (0.26 vs. 0.13). Livestock exclusion increased perennial grass cover more than the grazed plots did (2.14 vs. 1.42 times the initial measure). All treatments reduced the amount of bare soil except the grazed controls. Shrub cutting, especially with grazing, increased the lasting litter coverage by 5–10% and decreased the bare soil equivalently. Organic matter increased except in the non-intervened interpatches (0.95 times). The enclosures with cut shrubs trapped erodible particles, showing a 5% increase. Our study highlights that grazing destabilizes communities, while enclosures stabilize them, with interventions improving soil fertility and mitigating erosion. [ABSTRACT FROM AUTHOR]

Published

2024

42. Dynamics of Mulatto Grass Regrowth Depending on Rotational Cattle Grazing Management.

Author

Rodrigues, Carlindo Santos, da Silveira, Márcia Cristina Teixeira, Barbero, Leandro Martins, Sousa Júnior, Salim Jacaúna, Limão, Veridiana Aparecida, Silva, Guilherme Pontes, da Silva, Sila Carneiro, and do Nascimento Júnior, Domicio

Subjects

FORAGE, MULTIRACIAL people, GRAZING, GRASSES, FOREST canopies

Abstract

This study was carried out to characterize the dynamics of forage accumulation during the regrowth of Mulatto grass submitted to rotational grazing strategies. The treatments corresponded to combinations between two pre-grazing conditions (95% and a maximum light interception during regrowth—LI95% and LIMax) and two post-grazing conditions (post-grazing heights of 15 and 20 cm), according to a 2 × 2 factorial arrangement and randomized complete block design, with four replications. Rates of leaf growth (LGR), stems growth (SGR), total growth (TGR), leaf senescence (LSR), grass accumulation (GAR) (kg·ha−1·day−1), and the senescence/canopy growth ratio during different stages of regrowth. There was no difference between the management strategies for TGR. However, a higher GAR was reported for pastures managed with LI95% relative to LIMax, of 161.7 and 120.2 kg DM ha−1·day−1, respectively. Pastures managed with LI95% have a lower SGR in the intermediate and final regrowth period, reflecting the efficient control in the stalks production. On the other hand, in pastures managed, the LIMax showed higher SGR and LSR in the final regrowth phase. Thus, the LAI was higher in pastures managed at LI95% compared to those managed at LIMax, of 163.9 and 112.7 kg DM ha−1·day−1, respectively. Mulatto grass pastures, which were managed at LI95% pre-grazing, corresponded to approximately 30 cm in height, showed higher LAI, and ensured a low SGR throughout the regrowth period, constituting a more efficient management strategy. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Interaction of Wildfire with Post-Fire Herbivory on Arid and Semi-Arid U.S. Rangelands: A Review.

Author

Kluth, Janessa, Wyffels, Samuel, Eberly, Jed, Vermeire, Lance, Marlow, Clayton, and DelCurto, Timothy

Subjects

RANGELANDS, LAND cover, ANIMALS, WILDFIRE prevention, BUNCHGRASSES

Abstract

In the United States, rangelands comprise 30% of the total land cover and serve as a valuable resource for livestock, wildlife, water, and recreation. Rangelands vary in climate and are often subject to disturbances like drought and wildfire. Historic wildfire trends have indicated an increase in wildfire size and frequency, raising societal and ecological concerns about the management of these lands, both pre- and post-wildfire. While there has been investigation into the effects of grazing prior to a wildfire on fire severity and plant mortality, there is limited research related to grazing post-wildfire even though current management paradigms suggest deferring grazing rangeland for two years after a wildfire to avoid additional stress on native plant species. Based on the diversity found across rangeland ecotypes and history with wildfire, the two-year deferment recommendation may need to be reconsidered for some ecosystems. Species found in perennial bunchgrass rangelands like Pseudoroegneria spicata (bluebunch wheatgrass) and Festuca idahoensis (Idaho fescue) may be less susceptible to post-fire grazing than initially thought, necessitating the need for research into different rangeland ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

44. Context‐dependent directional effects of termite mounds on soil nutrients, vegetation communities, and mammalian foraging.

Author

Davies, Andrew B., Levick, Shaun R., van Rensburg, Berndt J., Robertson, Mark P., and Parr, Catherine L.

Subjects

NITROGEN in soils, RAINFALL, TERMITES, NATIONAL parks & reserves, SAVANNAS

Abstract

Termite mounds are keystone structures in African savannas, affecting multiple ecosystem processes. Despite the large size of termite mounds having the potential to modify conditions around them, patterns of mound‐induced ecosystem effects have been assumed to be isotropic, with little attention given to how effects might vary around mounds. We measured soil nitrogen content, grass species composition, and mammalian grazing on and off termite mounds in the four cardinal directions, and across wet and dry seasons at three savanna sites varying in mean annual rainfall in South Africa's Kruger National Park. Evidence of directional effects (anisotropy) on ecosystem properties around termite mounds varied with site. Grass species composition differed between north‐ and south‐facing slopes at the two drier sites where mounds were taller. However, differences in grazing extent and soil nitrogen content around mounds were only present at the intermediate rainfall site where mammalian herbivore biomass was highest, and mounds were of medium height. Our results suggest that termite mound effects display significant variation with direction, but that the emergence of directional effects is context dependent. Our results further suggest that such context‐dependent directional effects can lead to positive feedback loops between termites, abiotic conditions, and mammalian herbivores. [ABSTRACT FROM AUTHOR]

Published

2024

45. Paspalum lepton - a valuable adjunct to the suite of grasses used in grazing systems in the subtropics or a potential weed.

Author

COOK, BRUCE G., LLOYD, DAVID L., SCATTINI, WALTER J., and ROBERTSON, ALAN D.

Subjects

FEED quality, LIVESTOCK productivity, UPLANDS, GRAZING, GRASSES

Abstract

Copyright of Tropical Grasslands / Forrajes Tropicales is the property of International Centre for Tropical Agriculture - CIAT and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

46. Breeding Perspective and Analysis of Utility Parameters of the Suffolk Sheep Breed.

Author

Gondová, Martina, Zigo, František, Farkašová, Zuzana, Vargová, Mária, Lacková, Zuzana, Regecová, Ivana, Récky, Andrej, and Pecka-Kielb, Ewa

Subjects

SHEEP, MILK yield, GRAZING, AGRICULTURE

Abstract

Due to insufficient appreciation for the breeding of dairy sheep, breeds of sheep without market milk production have started to gain popularity in Slovakia. Particularly, meat breeds are coming to the forefront, with their breeding being less demanding and more efficient, reflected mainly in the daily weight gains of growing lambs. Study aimed to analyse the utility and reproductive parameters of breeding the meat breeds Suffolk, located in central Slovakia, in the Rimavská Sobota district. Analysis is supplemented by a detailed description of the breed standard and devotes attention to all the tasks carried out on the farm during the sheep farming year. It focuses mainly on a simple year-round grazing system without housing, utilizing only shelters for protection against adverse weather conditions. Analysed utility and reproductive parameters such as average daily gains, loin muscle thickness, backfat thickness, and fertility were compared and evaluated over the last seven years. Results indicate that the evaluated parameters are mainly influenced by the size of the flock, the number of ewes put to ram, the individual approach to each breeding ewe, and environmental factors. Number of offspring is mainly influenced by the nutrition of the dam in the last third of pregnancy. Despite the simplicity of the breeding system, monitored breeding can achieve above-average results with proper management and innovative approaches. [ABSTRACT FROM AUTHOR]

Published

2024

47. Rumen Degradation of Endosperm and Mesocarp Expellers from Acrocomia aculeata (Jacq.) Lodd. ex Mart. in Sheep Grazing Either Natural Pastures or Brachiaria brizantha cv. Marandu.

Author

Stanley, Winston E., Valiente, Óscar L., and de Vega, Antonio

Subjects

ENDOSPERM, GRAZING, SHEEP, WASTE products, PASTURES

Abstract

Simple Summary: Sheep producers in many countries of the world usually feed their animals with natural or improved pastures. In these situations, pastures alone usually do not cover animal needs, and supplementation is required. By-products from the oil industry are extensively used in animal feeding, and endosperm and mesocarp expellers from grugru palm may play an important role in animal feeding in the countries where it is distributed. To assess the protein value of an ingredient, the extent and rate of rumen degradation are central characteristics. However, associative effects with other components of the diet occur, and rumen degradation of individual ingredients should be assessed in the usual feeding conditions of an animal. On these grounds, the objective of this study was to provide information about rumen degradation of endosperm and mesocarp expellers from grugru palm in sheep grazing natural or cultivated monophytic pastures, and supplemented with a mixture of both expellers. The use of this mixture slows down the rate of degradation of the pastures, the effect of which is more intense in animals grazing natural swards. Supplementation with this mixture also increases the average daily gain of sheep, more substantially with multi-species natural pastures. Twenty-four ewes (eight fistulated in the rumen) were assigned to a 2 × 2 factorial design. The treatments included the pasture grazed (natural mixed swards—NMS or cultivated monophytic (Brachiaria brizantha cv. Marandu) swards—CMS) and the level of supplementation: without supplement or with a 1% supplement (dry matter (DM)/live weight). The supplement included one-third endosperm expeller (ENE) and two-thirds mesocarp expeller (ME) from Acrocomia aculeata (Jacq.) Lodd. ex Mart. In sacco rumen degradation of ENE, ME, NMS, and CMS was assessed in fistulated sheep, as were rumen fermentation variables. Average daily gain (ADG) was assessed in non-fistulated animals during a 7-week period. Potential degradability of the DM and crude protein of the expellers was not affected by the type of pasture grazed or the level of supplementation (p > 0.05), but the fractional rate of degradation (c) of DM was three times faster (p < 0.01) for ME than for ENE. The potential degradability of neutral detergent fiber was 34% higher (p < 0.0001) for ENE, with no differences in c (p > 0.1). Supplementation slowed down the c of the DM of the pastures, especially in animals grazing NMS (24% lower). Treatments affected rumen pH, concentration of volatile fatty acids, and proportion of valerate, in different ways. The use of the supplement increased ADG of sheep (six-fold in sheep grazing NMS and 40% in those grazing CMS). The use of a mixture of one-third ENE plus two-thirds ME as a protein supplement in sheep grazing either multi-species natural pastures or monophytic swards of Brachiaria brizantha cv. Marandu slows down the fractional rate of degradation of the pastures, the effect of which is more intense in animals grazing natural swards. This supplementation also increases average daily gain, more substantially with multi-species natural pastures. [ABSTRACT FROM AUTHOR]

Published

2024

48. Restoring grazing agroecosystems in Mediterranean less favoured areas for resilience and productivity: experts opinion

Author

Ioanna Poulopoulou, Georgia Hadjipavlou, Hannes Gamper, Messaoud Lazereg, Sezen Ocak Yetişgin, Alaa Mohamed, Matthias Gauly, Dimitra Gaki, Dimitris Goussios, Ioannis Faraslis, Dimitrios Tsiokos, Fabio Santeramo, Cláudia Marques-dos-Santos, Andrea Rosati, Penelope J. Bebeli, Wagdy K. B. Khalil, and Ioannis Hadjigeorgiou

Subjects

Grazing, Agroecosystems, Resilience, Less Favoured Areas, Mediterranean, Agriculture, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Mediterranean agroecosystems are under increasing pressures by extreme weather events, which together with poor livestock grazing management bring the already degraded lands closer to desertification. To address these challenges, we develop a decision support manual for sustainable management of degraded lands based on local plant and animal resources. We present a conceptual approach to quantify the quality attributes of current pasture-based livestock and mixed farming systems to increase their added value. Most approaches focus on lowland areas, we propose building a system to assess and quantify the quality and management of grazing lands as well as the small ruminant farming practices in Less Favoured Areas (LFAs) areas of the Mediterranean. The interventions have been proposed by 17 researchers from different disciplines ranging from animal science and animal husbandry, nutrition and genetics, pasture management, plant breeding and soil science to regional development and environmental science and agricultural economics. They are based on technical and socio-economic information, to foster the development of business models towards sustainable management of regenerative grazing. These models are also expected to be used as evidence for motivating farmers and stakeholders in reinforcing grazing as a practice that, when properly used and implemented using local knowledge, reduces land degradation and contributes to the conservation of the local resources. The economic analysis showing the costs and benefits of the applied systems is important to foster the integration and implementation of the recommended schemes and leads to more efficient planning through better decision making. The proposed interventions are designed to stimulate farmers to learn or rediscover grazing techniques, and to stimulate a re-think of priorities on the multi-faceted contribution of grazing agro-ecosystems, among others, on soil health, land degradation, sustainable grazing management and population conservation in LFAs, acknowledging the importance of pastureland regeneration. In the long term the introduction of the decision support manual and the business model will benefit the quality and management of grazing agroecosystems. Furthermore, it is essential to adjust the agricultural policies to implenent the proposed measures.

Published

2024

49. Assessment of in vitro digestibility and postdigestion peptide release of mare milk in relation to different management systems and lactation stages

Author

Ana Blanco-Doval, Raquel Sousa, Luis Javier R. Barron, Reto Portmann, Lotti Egger, and Noelia Aldai

Subjects

bioactive peptide, equid, grazing, INFOGEST, static in vitro digestion, Dairy processing. Dairy products, SF250.5-275, Dairying, SF221-250

Abstract

ABSTRACT: Mare milk has a unique protein composition that makes it a preferred option for adult and infant nutrition. Several functional properties have been attributed to this milk, but with little current evidence. In fact, knowledge on mare milk composition is still limited. In particular, studies addressing the performance of mare milk proteins during human gastrointestinal digestion are scarce, which limits the understanding of mare milk nutritional quality and functionality. For this reason, the present study describes the digestibility of mare milk proteins and the release of peptides as affected by management and lactation stage, factors which are known to affect milk composition. Mare milk samples from 3 different farms collected during 6 mo of lactation (n = 54) were subjected to a static in vitro gastrointestinal model to measure peptide release and protein digestibility. In the present study, a detailed description of protein and individual amino acid behavior during the digestion process was given. For the first time, digestion of the 2 equine β-lactoglobulin isoforms (I and II) was described individually. In addition, it was found that lactation stage and management system can significantly affect protein digestibility and peptide release during gastrointestinal digestion of mare milk. Presumably, differences in the composition of mare milk influence the protein structure and enzyme accessibility, which might have an impact on digestion behavior. Although no specific bioactive peptides were identified, several precursors of previously described bioactive peptides were found. These findings could support the idea of mare milk as a food with added value.

Published

2024

50. Onthophagus taurus Increases Soil Microbes Associated with Nutrient Cycling in California Pastureland Soils

Author

Lipton, Suzanne, Meyer, Rachel S, Richardson, Greg, and Philpott, Stacy M

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Microbiology, Forestry Sciences, Life on Land, Climate Action, Agroecology, Central Coast, Dung beetle, Grazing, Next -generation sequencing, Environmental Sciences, Agricultural and Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Published

2023