The Selenge River Basin(SRB)in Mongolia has faced ecosystem degradation because of climate change and overloading.The dynamics of the pastoral system and the extent of overload under future scenarios have not been doc...The Selenge River Basin(SRB)in Mongolia has faced ecosystem degradation because of climate change and overloading.The dynamics of the pastoral system and the extent of overload under future scenarios have not been documented.This study aims to answer the following questions:Will the typical soums in the SRB become more overgrazed in the future?What optimal strategy should be implemented?Multisource data were integrated and utilized to model the pastoral system of typical soums using a system dynamics approach.Future scenarios under three SSP-RCPs were projected using the model.The conclusions are as follows:(1)From upstream to downstream,rational scenarios for pastoral system transferred from SSP1-RCP2.6 to SSP2-RCP4.5,which reflect improved productivity at the expense of ecosystem stability.(2)Compared with that during the historical period of 2000-2020,the projected carrying capacity of the soums decreases by 15.2%-37.3%,whereas the number of livestock continues to increase.Consequently,the stocking rate is expected to increase from 0.32-1.16 during 2000-2020 to 1.26-2.02 during 2021-2050,indicating that rangeland will become more overloaded.(3)A livestock reduction strategy based on future livestock stock and grassland carrying capacity scenarios was proposed to maintain a dynamic forage-livestock equilibrium.It is suggested that reducing livestock is a practical option for harmonizing grassland conservation with livestock husbandry development.展开更多
Background:The Swegali Valley in the Swat District is notable for its diverse range of plant species.Livestock plays a vital role in the development of human civilization,and similar to human disease treatments plants...Background:The Swegali Valley in the Swat District is notable for its diverse range of plant species.Livestock plays a vital role in the development of human civilization,and similar to human disease treatments plants are utilized as remedies for a variety of domestic animals.Methods:The present study was carried out to record ethnoveterinary knowledge of the local plants that are being used by the people of Swegalai Valley,Swat,Pakistan.One hundred and thirty-five residents were interviewed using a questionnaire.The data were analyzed by applying quantitative formulas,like,used value(UV),relative frequency of citations(RFCs),fidelity level value(FL)%,consensus index(CI)%,and informant consensus factor(FIC).Results:Throughout the current study,47 plants belonging to 31 families are presented;these plants have been widely used as an ethnoveterinary medicine to treat various livestock ailments.Medicinal plants with high used values were Acacia nilotica L.(UV=0.791),and Ajuga bracteosa(0.782).Using RFCs values,the most valued and cited medicinal plant species used by people for livestock disorders are A.nilotica(RFCs=0.628),and A.bracteosa(0.616).Similarly,the highest values were also found for the same plant species using CI percentage;these were for ;A.nilotica L.(CI%=84.331),followed by A.bracteosa(83.221%).The highest fidelity level was for A.nilotica(FL%=100),A.bracteosa(95.341%),Allium cepa(88.344%),A.sativum(85.311%),Aloe vera(84.25%),Artemisia scoparia(83.101%),Berberis lycium(80.451%).The informant consensus factor(FIC)ranged from 0.782 to 1.The maximum FIC values for various diseases were;bovine mastitis,anti-helminthic,eye diseases,bloat and stomachic,fracture pain,pediculosis,rheumatism,and vermifuge.Conclusion:We concluded that the people of Swegalai deeply rely on medicinal plants to treat various livestock ailments.Ethnic information also provides a framework for further phytochemical investigations.Since this useful knowledge is being lost forever due to rapid socio-economic,technological,and environmental change,recording ethnoveterinary activities in the study area was therefore very important.Thus,the people of the study area must implement in-situ and ex-situ conservation strategies to ensure the sustainable utilization of these species.展开更多
As a natural alternative to antibiotics,probiotics have considerable potential for use in livestock farming.However,the current use of probiotics in livestock poses potential public health risks due to inadequate regu...As a natural alternative to antibiotics,probiotics have considerable potential for use in livestock farming.However,the current use of probiotics in livestock poses potential public health risks due to inadequate regulations,including issues such as the inferior quality and dissemination of antibiotic resistance.In this study,95 non-duplicate commercial probiotic products for livestock were collected from different regions of China.Our findings revealed that the labeling compliance rate for Lactobacillus was the lowest,at just 11%,and approximately 33.3%of the products were contaminated with opportunistic pathogens containing various virulence and antibiotic-resistance genes(ARGs).Isolates of Bacillus and Enterococcus from the products exhibited diverse clonal types and geographical dispersion,whereas certain Enterococcus exhibited close phylogenetic relationships to clones associated with human infectious diseases.Compared with Bacillus and Lactobacillus,Enterococcus exhibited a higher prevalence of ARGs.Specifically,the oxazolidine-resistance gene optrA,which is located on novel transferable plasmids,was found in one isolate of Enterococcus faecium(E.faecium).Using chicken models,we observed that the optrA-positive E.faecium disrupts the normal intestinal microbiota in chickens and alters the abundance of intestinal resistome and mobile genetic elements(MGEs).Furthermore,metagenomic analysis revealed that the optrA gene can be transferred via transposon IS1216E to commensal intestinal bacteria,including Enterococcus cecorum(E.cecorum),Enterococcus gallinarum(E.gallinarum),and Lactobacillus crispatus(L.crispatus)species.In summary,our study confirms that the probiotic products used in Chinese livestock production present problems such as non-compliance with good manufacturing practice(GMP)production standards and insufficient elucidation of the molecular genetic background of probiotic strains.The widespread use of low-quality Enterococcus strains containing various ARGs as probiotics could disrupt intestinal homeostasis and serve as a reservoir and source of ARGs.We emphasize the importance of carefully evaluating the use of Enterococcus strains as probiotics to avoid potential negative effects on livestock and human health.展开更多
Livestock management plays a crucial role in environmental protection,food security,and sustainable livelihoods worldwide.However,comprehensive research on its microeconomic dimensions remains limited.Here,we used pie...Livestock management plays a crucial role in environmental protection,food security,and sustainable livelihoods worldwide.However,comprehensive research on its microeconomic dimensions remains limited.Here,we used piecewise structural equation modeling to identify key drivers of livestock management among rural smallholders,focusing on livestock stocking rates(LSR)and livestock offtake rates(LOR).Data were collected via semi-structured questionnaires and household head interviews in 54 villages in northern Xizang between2018 and 2020(n=549).Our findings revealed pronounced spatial heterogeneity in livestock management,with households in alpine meadows showing the highest LSR(2.14 standardized sheep units per hectare,SSU·ha^(-1))and the lowest LOR(9%),in contrast to households in desert steppe areas(0.27 SSU·ha^(-1)and 15%,respectively).Across northern Xizang,five grouped environmental factors—climatic conditions,natural resource endowment,market conditions,demographics,and household income—jointly explained 66%and 20%of the variance in LSR and LOR,respectively.Biophysical factors had a greater influence than socioeconomic ones,though demographic variables and market conditions were also positively correlated with LSR and LOR,respectively.Given the consistently low LOR among species(9%–15%),with marked differences between yaks and sheep(5%)and goats(2%),targeted policies are needed to encourage herders to adopt circular economy practices to balance ecological conservation with economic growth.This study highlights an underutilized livestock economy in high-altitude pastoral communities and clarifies the interplay of biophysical and socioeconomic factors in herders'decision-making.The findings offer valuable insights for refining policy frameworks related to livestock and environmental management in rural China and beyond.展开更多
Global warming and climate change have made food production through conventional agriculture inefficient, and their effects on livestock and crop cultivation are leading to disruptions in the food supply. The troubles...Global warming and climate change have made food production through conventional agriculture inefficient, and their effects on livestock and crop cultivation are leading to disruptions in the food supply. The troubles are severe in regions suffering from improper land management and unsustainable practices. The Bio-CircularGreen(BCG) economic model, designed to reduce and recycle resources by using environmentally friendly procedures, has been developed. The Azolla plant represents an interesting model for BCG and for enhancing community networks in Southeast Asia(SEA) because it provides multipurpose materials. Azolla can be used for various applications in agriculture such as biofertilizer and animal feed. However, our understanding and utilization of Azolla are limited. Moreover, collaboration among farmers is insufficient to maximize the benefits of Azolla. In this study, we provide a comprehensive review of the role of Azolla in agriculture. We review the main properties of Azolla as biofertilizers, especially regarding rice production and the interaction with cyanobacteria. For livestock, we discuss procedures to use Azolla in animal feed and evaluate the ingredients of the meal. In addition, we discuss product qualities from livestock treated with Azolla in the diet. This review also describes Azolla-based farming, which is designed for efficient land use and promotes nutrient cycling.Hence, we show that the Azolla plant is one of the key factors for farm-based agroecosystem services which can drive sustainable bioresource management in SEA. Moreover, we also propose the potential development of Azolla to improve its properties as a biofertilizer, a functional feed for animals and humans, and a feedstock for bio-oil production.展开更多
Goat husbandry plays a crucial role in the agrarian economy of Aligarh district,Uttar Pradesh,offering a sustainable source of income and livelihood for marginalized communities,landless farmers,and smallholders.This ...Goat husbandry plays a crucial role in the agrarian economy of Aligarh district,Uttar Pradesh,offering a sustainable source of income and livelihood for marginalized communities,landless farmers,and smallholders.This study explores the socio-economic dimensions of goat farming in the district,analyzing its impact on income generation,employment,and rural development.The present study is based on both primary and secondary data.The primary data is obtained from 12 sampled villages,and the secondary data is obtained from Statistical Bulletins of Aligarh District.The study examines the demographic composition of goat rearers,landholding patterns,and the role of gender and caste in traditional goat rearing.The findings highlight that goat farming serves as a financial safety net,often referred to as the“poor farmer’s ATM”due to its low input costs and quick returns.The study further assesses the trends,market dynamics,and future prospects of modern scientific goat farming in the region.The results indicate that despite regional variations in herd size and market accessibility,goat husbandry remains a viable strategy for poverty alleviation and economic resilience.The study concludes by emphasizing the need for improved veterinary support,financial assistance,and market linkages to enhance the efficiency and sustainability of goat farming in the district.展开更多
The livestock farming is an important pillar of the rural economy in China.To explore the impact of government technical subsidies and pollution penalties on the digital and intelligent transformation of livestock ent...The livestock farming is an important pillar of the rural economy in China.To explore the impact of government technical subsidies and pollution penalties on the digital and intelligent transformation of livestock enterprises,an evolutionary game theoretical model between the government and livestock enterprises is constructed.The interaction mechanism of the game between the government and breeding enterprises is explored,and simulation is conducted.The research results show that the combined strategy of pollution penalties and technical subsidies is the optimal strategy for the government;the system is jointly driven by government subsidies,technical costs of transformation input,public willingness,and enterprise willingness.展开更多
Probiotic extracellular vesicles(pEVs)are biologically active nanoparticle structures that can regulate the intestinal tract through direct or indirect mechanisms.They enhance the intestinal barrier function in livest...Probiotic extracellular vesicles(pEVs)are biologically active nanoparticle structures that can regulate the intestinal tract through direct or indirect mechanisms.They enhance the intestinal barrier function in livestock and poultry and help alleviate intestinal diseases.The specific effects of pEVs depend on their internal functional components,including nucleic acids,proteins,lipids,and other substances.This paper presents a narrative review of the impact of pEVs on the intestinal barrier across various segments of the intestinal tract,exploring their mechanisms of action while highlighting the limitations of current research.Investigating the mechanisms through which probiotics oper-ate via pEVs could deepen our understanding and provide a theoretical foundation for their application in livestock production.展开更多
This paper investigated and analyzed the conservation and utilization of four local livestock breeds in Binzhou City:Wadi Sheep,Bohai Black Cattle,Wudi Donkey,and Lubei White Goat.Shortcomings in the protection and ut...This paper investigated and analyzed the conservation and utilization of four local livestock breeds in Binzhou City:Wadi Sheep,Bohai Black Cattle,Wudi Donkey,and Lubei White Goat.Shortcomings in the protection and utilization of local germplasm resources were pointed out,and strategies and recommendations were proposed to promote high-quality development of livestock and poultry genetic resources in Binzhou,including building a solid germplasm foundation,standardizing production,and driving innovation.This paper provides references for the conservation,development,and utilization of local genetic resources in Binzhou City.展开更多
The land application of livestock manure has been widely acknowledged as a beneficial approach for nutrient recycling and environmental protection.However,the impact of residual antibiotics,a common contaminant of man...The land application of livestock manure has been widely acknowledged as a beneficial approach for nutrient recycling and environmental protection.However,the impact of residual antibiotics,a common contaminant of manure,on the degradation of organic compounds and nutrient release in Eutric Regosol is not well understood.Here,we studied,how oxytetracycline(OTC)and ciprofloxacin(CIP)affect the decomposition,microbial community structure,extracellular enzyme activities and nutrient release from cattle and pig manure using litterbag incubation experiments.Results showed that OTC and CIP greatly inhibited livestock manure decomposition,causing a decreased rate of carbon(28%-87%),nitrogen(15%-44%)and phosphorus(26%-43%)release.The relative abundance of gramnegative(G-)bacteria was reduced by 4.0%-13%while fungi increased by 7.0%-71%during a 28-day incubation period.Co-occurrence network analysis showed that antibiotic exposure disrupted microbial interactions,particularly among G-bacteria,G+bacteria,and actinomycetes.These changes in microbial community structure and function resulted in decreased activity of urease,β-1,4-N-acetyl-glucosaminidase,alkaline protease,chitinase,and catalase,causing reduced decomposition and nutrient release in cattle and pig ma-nures.These findings advance our understanding of decomposition and nutrient recycling from manure-contaminated antibiotics,which will help facilitate sustainable agricultural production and soil carbon sequestration.展开更多
The research explores the long-term connection between Greece’s agricultural output,with a focus on both crop and livestock production,and crucial environmental factors like water usage and energy consumption.Through...The research explores the long-term connection between Greece’s agricultural output,with a focus on both crop and livestock production,and crucial environmental factors like water usage and energy consumption.Through linear regression analysis,the study investigates how these factors affect agricultural value-added,providing insights into the sustainability and efficiency of Greece’s farming sector.The results show a significant(p<0.05)positive relationship between crop production and agricultural value-added,as well as the significant influence of water usage and energy consumption on the productivity of both crops and livestock.For livestock farming,the analysis revealed a weaker contribution to agricultural value-added at the national level,likely due to structural inefficiencies in the sector.While livestock production benefits significantly from water and energy inputs,it does not have as substantial an economic impact compared to crop production.This research contributes to the field of agricultural economics by offering a historical perspective on how resource management influences agricultural performance over time.It highlights the significance of sustainable practices,especially in areas like the periphery of Western Macedonia,which are shifting from conventional energy sources like lignite to renewable energy.The findings advocate for policies that promote water conservation,energy efficiency,and smart agriculture to enhance productivity and support regional development.展开更多
Programmed cell death(PCD),including autophagy,apoptosis,and ferroptosis,is a fundamental biological process that plays a critical role in follicular development and atresia in livestock.In ovaries,the vast majority o...Programmed cell death(PCD),including autophagy,apoptosis,and ferroptosis,is a fundamental biological process that plays a critical role in follicular development and atresia in livestock.In ovaries,the vast majority of follicles undergo atresia,while only a small fraction reach ovulation.Emerging evidence suggests that these three forms of PCD are intricately involved in regulating follicular fate through distinct yet interconnected molecular mechanisms.This review summarizes recent advances in understanding the roles of autophagy,apoptosis,and ferroptosis in follicular development and atresia,with a focus on their molecular mechanisms and interactions.By elucidating the complex regulatory networks of PCD in ovarian physiology,this review aims to provide new insights into improving reproductive efficiency in livestock through targeted modulation of these pathways.展开更多
Animal husbandry is an essential pillar sector in China.However,the wastewater including a mixture of feces,urine,and flushing water from livestock and poultry farming poses serious environmental risks if not properly...Animal husbandry is an essential pillar sector in China.However,the wastewater including a mixture of feces,urine,and flushing water from livestock and poultry farming poses serious environmental risks if not properly managed or over-applied.This paper analyzes the existing challenges in the utilization of livestock manure,focusing on source control,process management,and end-use treatment.To address these issues,it proposes establishing a sustainable long-term mechanism.Key recommendations include enhancing source control,strengthening policy support to alleviate the financial burden on enterprises,aligning with market demands,intensifying the promotion of technologies and equipment development,and improving manure quality.In addition,advocating for grain-efficient animal husbandry and promoting diversified utilization through bio-chain approaches are essential.展开更多
The “Greater Food” approach has replaced the older “taking grain production as a top priority” approach. Theimportance of feed and forage as the material basis for guaranteeing high-quality development of the live...The “Greater Food” approach has replaced the older “taking grain production as a top priority” approach. Theimportance of feed and forage as the material basis for guaranteeing high-quality development of the livestock industry has gradually become prominent. However, owing to the tradition of “both human staple food and animal feed relying on grain production” in China and the decoupling of feed crop planting and livestock farming, the risk of feed grain security has increased, especially as it relates to the supply of high-quality protein feed ingredients from abroad, which is facing a bottleneck. To ensure food security, effective domestic agricultural production should be adopted. Nevertheless, guaranteeing the supply of high-quality protein feed through domestic soybean production is difficult because of limited arable land;furthermore, pressure on the staple food supply is still extreme. In this article, the historical and realistic implications for the security risks of feed grain in China are analyzed. Proposals are made to separate staple food grains for humans from the feed grain supply for animals and to develop high-quality forage to reduce feed grain use. High-quality forage can be supplied via intercropping with grain crops in arable land and reseeding perennial legumes or grasses into natural grasslands. However, “managing forage for grain” needs to be supported via technical paths and policies as the forage industry develops to effectively increase the capacity to ensure feed grain security.展开更多
Gaseous nitrous acid(HONO)is a critical contributor to daytime hydroxyl radical in the troposphere.Livestock farming has been recognized as an overlooked HONO source,but the lack of detailed flux measurements from liv...Gaseous nitrous acid(HONO)is a critical contributor to daytime hydroxyl radical in the troposphere.Livestock farming has been recognized as an overlooked HONO source,but the lack of detailed flux measurements from livestock and poultry wastes would cause uncertainties in modeling its environmental impacts.Here,based on field flux measurements and laboratory experiments,we observed substantial HONO emissions from the composting of swine feces and chicken manure in the warm season,which might be mainly attributed to nitrification process in livestock and poultry wastes.The HONO emission from chicken manure was found to bemuch higher than that from swine feces,and the higher NH3 emission but lower N2O and NO emissions fromchicken manurewere also observed.Considering that the interaction among these nitrogen species during nitrification process,the obviously lower HONO emission from swine feces was likely to be explained by the lack of the total ammonia nitrogen and H+donors in swine feces.Temperature is also a key factor that influences the HONO emission from livestock wastes.In addition,the total HONO emission from swine feces in Chinawas estimated to be approximately 107.7 Gg-N/yr according to the national swine amounts,which is comparable to the national soil HONO emissions,underscoring its non-negligible contribution to regional air quality.Therefore,effective emission control of HONO fromlivestock and poultry wastes should be carried out to further improve air quality in China.展开更多
Against the backdrop of global climate change and tightening resource constraints,sustainable agricultural development has emerged as a central issue for countries worldwide in addressing environmental challenges.As a...Against the backdrop of global climate change and tightening resource constraints,sustainable agricultural development has emerged as a central issue for countries worldwide in addressing environmental challenges.As a major agricultural nation,China’s livestock industry accounts for over 35%of the total agricultural output value,serving as a crucial pillar for ensuring national nutritional security and rural economic development.However,traditional farming models have long relied on high-density rearing,excessive use of chemical inputs,and end-of-pipe pollution control measures.These practices have resulted in greenhouse gas emissions accounting for 45%of the agricultural total,an annual generation of over 3 billion tons of livestock manure,and a resource utilization rate of less than 60%.This“high-input,high-emission,low-efficiency”development path has not only exacerbated ecological issues such as soil degradation and water eutrophication but also undermined the industry’s international competitiveness and consumer trust due to food safety hazards like antibiotic residues and heavy metal contamination.In this context,Muyuan Group has actively pursued green technology innovation to achieve simultaneous enhancement of economic and ecological benefits.展开更多
The agricultural sector, encompassing agriculture, forestry, and land use, significantly contributes to global greenhouse gas(GHG) emissions, accounting for 23% of the total(IPCC 2019). It faces substantial challenges...The agricultural sector, encompassing agriculture, forestry, and land use, significantly contributes to global greenhouse gas(GHG) emissions, accounting for 23% of the total(IPCC 2019). It faces substantial challenges due to population growth and the urgent need to reduce its GHG emissions. Livestock husbandry, a crucial component of agriculture, accounts for a significant proportion of agricultural GHG emissions(Nugrahaeningtyas et al. 2024). Reducing emissions from livestock is essential not only for addressing climate change but also for protecting the ecological environment and achieving sustainable development. This is a critical task for the future of our planet and the well-being of future generations.展开更多
The Globally Important Agricultural Heritage Systems(GIAHS)embody a remarkable diversity of plants,crop varieties,livestock breeds,fisheries,and forests,shaped and sustained through centuries of interaction between pe...The Globally Important Agricultural Heritage Systems(GIAHS)embody a remarkable diversity of plants,crop varieties,livestock breeds,fisheries,and forests,shaped and sustained through centuries of interaction between people and nature.展开更多
Currently,research on the co-application of straw charcoal and organic fertilizer made from livestock and poultry manure remains limited,despite their demonstrated benefits in enhancing soil fertility and improving pl...Currently,research on the co-application of straw charcoal and organic fertilizer made from livestock and poultry manure remains limited,despite their demonstrated benefits in enhancing soil fertility and improving plant physiological traits.To investigate the effects of straw charcoal on paddy soil,an experiment was conducted in fields with stable soil properties characterized by clay loam texture in the Middle-Lower Reaches of the Yangtze River,China,using the rice cultivar Nanjing 5055.展开更多
[Objective]The paper was to quickly get the real-time dynamic status of regional farmland environmental pollution caused by livestock wastes.[Method] With WebGIS as spatial information platform,the network and digital...[Objective]The paper was to quickly get the real-time dynamic status of regional farmland environmental pollution caused by livestock wastes.[Method] With WebGIS as spatial information platform,the network and digital early warning system of farmland environmental pollution caused by livestock wastes was established.[Result] The system realized the functions such as livestock wastes calculation,livestock information query and analysis,nitrogen load quantity estimation of livestock waste,early warning of farmland environmental pollution caused by livestock wastes and visual display of result.[Conclusion] The paper provided scientific basis for the relevant research on farmland environmental pollution caused by livestock wastes.展开更多
基金National Natural Science Foundation of China,No.32161143025,No.42371283,No.W2412155National Key R&D Program of China,No.2022YFE0119200。
文摘The Selenge River Basin(SRB)in Mongolia has faced ecosystem degradation because of climate change and overloading.The dynamics of the pastoral system and the extent of overload under future scenarios have not been documented.This study aims to answer the following questions:Will the typical soums in the SRB become more overgrazed in the future?What optimal strategy should be implemented?Multisource data were integrated and utilized to model the pastoral system of typical soums using a system dynamics approach.Future scenarios under three SSP-RCPs were projected using the model.The conclusions are as follows:(1)From upstream to downstream,rational scenarios for pastoral system transferred from SSP1-RCP2.6 to SSP2-RCP4.5,which reflect improved productivity at the expense of ecosystem stability.(2)Compared with that during the historical period of 2000-2020,the projected carrying capacity of the soums decreases by 15.2%-37.3%,whereas the number of livestock continues to increase.Consequently,the stocking rate is expected to increase from 0.32-1.16 during 2000-2020 to 1.26-2.02 during 2021-2050,indicating that rangeland will become more overloaded.(3)A livestock reduction strategy based on future livestock stock and grassland carrying capacity scenarios was proposed to maintain a dynamic forage-livestock equilibrium.It is suggested that reducing livestock is a practical option for harmonizing grassland conservation with livestock husbandry development.
文摘Background:The Swegali Valley in the Swat District is notable for its diverse range of plant species.Livestock plays a vital role in the development of human civilization,and similar to human disease treatments plants are utilized as remedies for a variety of domestic animals.Methods:The present study was carried out to record ethnoveterinary knowledge of the local plants that are being used by the people of Swegalai Valley,Swat,Pakistan.One hundred and thirty-five residents were interviewed using a questionnaire.The data were analyzed by applying quantitative formulas,like,used value(UV),relative frequency of citations(RFCs),fidelity level value(FL)%,consensus index(CI)%,and informant consensus factor(FIC).Results:Throughout the current study,47 plants belonging to 31 families are presented;these plants have been widely used as an ethnoveterinary medicine to treat various livestock ailments.Medicinal plants with high used values were Acacia nilotica L.(UV=0.791),and Ajuga bracteosa(0.782).Using RFCs values,the most valued and cited medicinal plant species used by people for livestock disorders are A.nilotica(RFCs=0.628),and A.bracteosa(0.616).Similarly,the highest values were also found for the same plant species using CI percentage;these were for ;A.nilotica L.(CI%=84.331),followed by A.bracteosa(83.221%).The highest fidelity level was for A.nilotica(FL%=100),A.bracteosa(95.341%),Allium cepa(88.344%),A.sativum(85.311%),Aloe vera(84.25%),Artemisia scoparia(83.101%),Berberis lycium(80.451%).The informant consensus factor(FIC)ranged from 0.782 to 1.The maximum FIC values for various diseases were;bovine mastitis,anti-helminthic,eye diseases,bloat and stomachic,fracture pain,pediculosis,rheumatism,and vermifuge.Conclusion:We concluded that the people of Swegalai deeply rely on medicinal plants to treat various livestock ailments.Ethnic information also provides a framework for further phytochemical investigations.Since this useful knowledge is being lost forever due to rapid socio-economic,technological,and environmental change,recording ethnoveterinary activities in the study area was therefore very important.Thus,the people of the study area must implement in-situ and ex-situ conservation strategies to ensure the sustainable utilization of these species.
基金the National Key Research and Development Program(2022YFD1800400)Jiangsu Provincial Natural Science Foundation Project(BK20220746).
文摘As a natural alternative to antibiotics,probiotics have considerable potential for use in livestock farming.However,the current use of probiotics in livestock poses potential public health risks due to inadequate regulations,including issues such as the inferior quality and dissemination of antibiotic resistance.In this study,95 non-duplicate commercial probiotic products for livestock were collected from different regions of China.Our findings revealed that the labeling compliance rate for Lactobacillus was the lowest,at just 11%,and approximately 33.3%of the products were contaminated with opportunistic pathogens containing various virulence and antibiotic-resistance genes(ARGs).Isolates of Bacillus and Enterococcus from the products exhibited diverse clonal types and geographical dispersion,whereas certain Enterococcus exhibited close phylogenetic relationships to clones associated with human infectious diseases.Compared with Bacillus and Lactobacillus,Enterococcus exhibited a higher prevalence of ARGs.Specifically,the oxazolidine-resistance gene optrA,which is located on novel transferable plasmids,was found in one isolate of Enterococcus faecium(E.faecium).Using chicken models,we observed that the optrA-positive E.faecium disrupts the normal intestinal microbiota in chickens and alters the abundance of intestinal resistome and mobile genetic elements(MGEs).Furthermore,metagenomic analysis revealed that the optrA gene can be transferred via transposon IS1216E to commensal intestinal bacteria,including Enterococcus cecorum(E.cecorum),Enterococcus gallinarum(E.gallinarum),and Lactobacillus crispatus(L.crispatus)species.In summary,our study confirms that the probiotic products used in Chinese livestock production present problems such as non-compliance with good manufacturing practice(GMP)production standards and insufficient elucidation of the molecular genetic background of probiotic strains.The widespread use of low-quality Enterococcus strains containing various ARGs as probiotics could disrupt intestinal homeostasis and serve as a reservoir and source of ARGs.We emphasize the importance of carefully evaluating the use of Enterococcus strains as probiotics to avoid potential negative effects on livestock and human health.
基金supported by the Second Tibetan Plateau Scientific Expedition and Research(Grant No.2019QZKK1002)the Innovation Talent Exchange of Foreign Expert Program under the Belt and Road Initiative(Grant No.DL2021056001L)。
文摘Livestock management plays a crucial role in environmental protection,food security,and sustainable livelihoods worldwide.However,comprehensive research on its microeconomic dimensions remains limited.Here,we used piecewise structural equation modeling to identify key drivers of livestock management among rural smallholders,focusing on livestock stocking rates(LSR)and livestock offtake rates(LOR).Data were collected via semi-structured questionnaires and household head interviews in 54 villages in northern Xizang between2018 and 2020(n=549).Our findings revealed pronounced spatial heterogeneity in livestock management,with households in alpine meadows showing the highest LSR(2.14 standardized sheep units per hectare,SSU·ha^(-1))and the lowest LOR(9%),in contrast to households in desert steppe areas(0.27 SSU·ha^(-1)and 15%,respectively).Across northern Xizang,five grouped environmental factors—climatic conditions,natural resource endowment,market conditions,demographics,and household income—jointly explained 66%and 20%of the variance in LSR and LOR,respectively.Biophysical factors had a greater influence than socioeconomic ones,though demographic variables and market conditions were also positively correlated with LSR and LOR,respectively.Given the consistently low LOR among species(9%–15%),with marked differences between yaks and sheep(5%)and goats(2%),targeted policies are needed to encourage herders to adopt circular economy practices to balance ecological conservation with economic growth.This study highlights an underutilized livestock economy in high-altitude pastoral communities and clarifies the interplay of biophysical and socioeconomic factors in herders'decision-making.The findings offer valuable insights for refining policy frameworks related to livestock and environmental management in rural China and beyond.
基金Mahidol University for the support of a “Scholarship for PhD Student”, Thailandthe the cooperation with the National Science and Technology Development Agency and Mahidol University of “the Scholarship for the Development of High Quality Research Graduates in Science and Technology Project”, Thailand。
文摘Global warming and climate change have made food production through conventional agriculture inefficient, and their effects on livestock and crop cultivation are leading to disruptions in the food supply. The troubles are severe in regions suffering from improper land management and unsustainable practices. The Bio-CircularGreen(BCG) economic model, designed to reduce and recycle resources by using environmentally friendly procedures, has been developed. The Azolla plant represents an interesting model for BCG and for enhancing community networks in Southeast Asia(SEA) because it provides multipurpose materials. Azolla can be used for various applications in agriculture such as biofertilizer and animal feed. However, our understanding and utilization of Azolla are limited. Moreover, collaboration among farmers is insufficient to maximize the benefits of Azolla. In this study, we provide a comprehensive review of the role of Azolla in agriculture. We review the main properties of Azolla as biofertilizers, especially regarding rice production and the interaction with cyanobacteria. For livestock, we discuss procedures to use Azolla in animal feed and evaluate the ingredients of the meal. In addition, we discuss product qualities from livestock treated with Azolla in the diet. This review also describes Azolla-based farming, which is designed for efficient land use and promotes nutrient cycling.Hence, we show that the Azolla plant is one of the key factors for farm-based agroecosystem services which can drive sustainable bioresource management in SEA. Moreover, we also propose the potential development of Azolla to improve its properties as a biofertilizer, a functional feed for animals and humans, and a feedstock for bio-oil production.
基金project entitled“Impact Assessment of Potential of goat farming and its Allied Activities on Socio-Economic Development of Rural Population in Aligarh District,U.P”(F.N0.02/159/2022-23/ICSSR/RP/MJ/GEN)sanctioned to Professor Nizamuddin Khan,Department of Geography,A.M.U,Aligarh.
文摘Goat husbandry plays a crucial role in the agrarian economy of Aligarh district,Uttar Pradesh,offering a sustainable source of income and livelihood for marginalized communities,landless farmers,and smallholders.This study explores the socio-economic dimensions of goat farming in the district,analyzing its impact on income generation,employment,and rural development.The present study is based on both primary and secondary data.The primary data is obtained from 12 sampled villages,and the secondary data is obtained from Statistical Bulletins of Aligarh District.The study examines the demographic composition of goat rearers,landholding patterns,and the role of gender and caste in traditional goat rearing.The findings highlight that goat farming serves as a financial safety net,often referred to as the“poor farmer’s ATM”due to its low input costs and quick returns.The study further assesses the trends,market dynamics,and future prospects of modern scientific goat farming in the region.The results indicate that despite regional variations in herd size and market accessibility,goat husbandry remains a viable strategy for poverty alleviation and economic resilience.The study concludes by emphasizing the need for improved veterinary support,financial assistance,and market linkages to enhance the efficiency and sustainability of goat farming in the district.
文摘The livestock farming is an important pillar of the rural economy in China.To explore the impact of government technical subsidies and pollution penalties on the digital and intelligent transformation of livestock enterprises,an evolutionary game theoretical model between the government and livestock enterprises is constructed.The interaction mechanism of the game between the government and breeding enterprises is explored,and simulation is conducted.The research results show that the combined strategy of pollution penalties and technical subsidies is the optimal strategy for the government;the system is jointly driven by government subsidies,technical costs of transformation input,public willingness,and enterprise willingness.
基金National Nature Science Foundation of China(32272898).
文摘Probiotic extracellular vesicles(pEVs)are biologically active nanoparticle structures that can regulate the intestinal tract through direct or indirect mechanisms.They enhance the intestinal barrier function in livestock and poultry and help alleviate intestinal diseases.The specific effects of pEVs depend on their internal functional components,including nucleic acids,proteins,lipids,and other substances.This paper presents a narrative review of the impact of pEVs on the intestinal barrier across various segments of the intestinal tract,exploring their mechanisms of action while highlighting the limitations of current research.Investigating the mechanisms through which probiotics oper-ate via pEVs could deepen our understanding and provide a theoretical foundation for their application in livestock production.
基金Supported by Binzhou Social Sciences Planning Project in 2024(24-SKGH-051)Binzhou Comprehensive Experimental Station Project of Shandong Provincial Forage Industry Technology System(SDAIT-23-10).
文摘This paper investigated and analyzed the conservation and utilization of four local livestock breeds in Binzhou City:Wadi Sheep,Bohai Black Cattle,Wudi Donkey,and Lubei White Goat.Shortcomings in the protection and utilization of local germplasm resources were pointed out,and strategies and recommendations were proposed to promote high-quality development of livestock and poultry genetic resources in Binzhou,including building a solid germplasm foundation,standardizing production,and driving innovation.This paper provides references for the conservation,development,and utilization of local genetic resources in Binzhou City.
基金supported by the National Natural Science Foundation of China(No.U20A2047)the Key Research and Development Project for Tibet Autonomous Region(No.XZ202201ZY0003N)+2 种基金the National Key Research and Development Program of China(No.2022YFD1901402)the Lasa Science and Technology Bureau(No.LSKJ202206)the Foundation of Graduate Research and Innovation in Chongqing(No.CYB22127).
文摘The land application of livestock manure has been widely acknowledged as a beneficial approach for nutrient recycling and environmental protection.However,the impact of residual antibiotics,a common contaminant of manure,on the degradation of organic compounds and nutrient release in Eutric Regosol is not well understood.Here,we studied,how oxytetracycline(OTC)and ciprofloxacin(CIP)affect the decomposition,microbial community structure,extracellular enzyme activities and nutrient release from cattle and pig manure using litterbag incubation experiments.Results showed that OTC and CIP greatly inhibited livestock manure decomposition,causing a decreased rate of carbon(28%-87%),nitrogen(15%-44%)and phosphorus(26%-43%)release.The relative abundance of gramnegative(G-)bacteria was reduced by 4.0%-13%while fungi increased by 7.0%-71%during a 28-day incubation period.Co-occurrence network analysis showed that antibiotic exposure disrupted microbial interactions,particularly among G-bacteria,G+bacteria,and actinomycetes.These changes in microbial community structure and function resulted in decreased activity of urease,β-1,4-N-acetyl-glucosaminidase,alkaline protease,chitinase,and catalase,causing reduced decomposition and nutrient release in cattle and pig ma-nures.These findings advance our understanding of decomposition and nutrient recycling from manure-contaminated antibiotics,which will help facilitate sustainable agricultural production and soil carbon sequestration.
文摘The research explores the long-term connection between Greece’s agricultural output,with a focus on both crop and livestock production,and crucial environmental factors like water usage and energy consumption.Through linear regression analysis,the study investigates how these factors affect agricultural value-added,providing insights into the sustainability and efficiency of Greece’s farming sector.The results show a significant(p<0.05)positive relationship between crop production and agricultural value-added,as well as the significant influence of water usage and energy consumption on the productivity of both crops and livestock.For livestock farming,the analysis revealed a weaker contribution to agricultural value-added at the national level,likely due to structural inefficiencies in the sector.While livestock production benefits significantly from water and energy inputs,it does not have as substantial an economic impact compared to crop production.This research contributes to the field of agricultural economics by offering a historical perspective on how resource management influences agricultural performance over time.It highlights the significance of sustainable practices,especially in areas like the periphery of Western Macedonia,which are shifting from conventional energy sources like lignite to renewable energy.The findings advocate for policies that promote water conservation,energy efficiency,and smart agriculture to enhance productivity and support regional development.
基金funded by The National Key Research and Development Program of China,grant number 2022YFF1000202National Natural Science Foundation of China Grants(32402745).Sichuan Science and Technology Program,grant number 2023NSFSC1940,2021YFYZ0007,and 2021YFYZ0031China Agriculture Research System of MOF and MARA,grant number CARS-40.
文摘Programmed cell death(PCD),including autophagy,apoptosis,and ferroptosis,is a fundamental biological process that plays a critical role in follicular development and atresia in livestock.In ovaries,the vast majority of follicles undergo atresia,while only a small fraction reach ovulation.Emerging evidence suggests that these three forms of PCD are intricately involved in regulating follicular fate through distinct yet interconnected molecular mechanisms.This review summarizes recent advances in understanding the roles of autophagy,apoptosis,and ferroptosis in follicular development and atresia,with a focus on their molecular mechanisms and interactions.By elucidating the complex regulatory networks of PCD in ovarian physiology,this review aims to provide new insights into improving reproductive efficiency in livestock through targeted modulation of these pathways.
文摘Animal husbandry is an essential pillar sector in China.However,the wastewater including a mixture of feces,urine,and flushing water from livestock and poultry farming poses serious environmental risks if not properly managed or over-applied.This paper analyzes the existing challenges in the utilization of livestock manure,focusing on source control,process management,and end-use treatment.To address these issues,it proposes establishing a sustainable long-term mechanism.Key recommendations include enhancing source control,strengthening policy support to alleviate the financial burden on enterprises,aligning with market demands,intensifying the promotion of technologies and equipment development,and improving manure quality.In addition,advocating for grain-efficient animal husbandry and promoting diversified utilization through bio-chain approaches are essential.
基金funded by the China Agriculture Research System of MOF and MARA (CARS-34)the National Natural Science Foundation of China (32201471)+1 种基金the Development and Demonstration Project of Key Technologies for High Quality Development of Forage Industry in Ordos, Chinathe fellowship of China Postdoctoral Science Foundation (2023T160697)。
文摘The “Greater Food” approach has replaced the older “taking grain production as a top priority” approach. Theimportance of feed and forage as the material basis for guaranteeing high-quality development of the livestock industry has gradually become prominent. However, owing to the tradition of “both human staple food and animal feed relying on grain production” in China and the decoupling of feed crop planting and livestock farming, the risk of feed grain security has increased, especially as it relates to the supply of high-quality protein feed ingredients from abroad, which is facing a bottleneck. To ensure food security, effective domestic agricultural production should be adopted. Nevertheless, guaranteeing the supply of high-quality protein feed through domestic soybean production is difficult because of limited arable land;furthermore, pressure on the staple food supply is still extreme. In this article, the historical and realistic implications for the security risks of feed grain in China are analyzed. Proposals are made to separate staple food grains for humans from the feed grain supply for animals and to develop high-quality forage to reduce feed grain use. High-quality forage can be supplied via intercropping with grain crops in arable land and reseeding perennial legumes or grasses into natural grasslands. However, “managing forage for grain” needs to be supported via technical paths and policies as the forage industry develops to effectively increase the capacity to ensure feed grain security.
基金supported by the National Key Research and Development Program(No.2022YFC3701102)the National Natural Science Foundation of China(Nos.41905109,42405114,and 42105105).
文摘Gaseous nitrous acid(HONO)is a critical contributor to daytime hydroxyl radical in the troposphere.Livestock farming has been recognized as an overlooked HONO source,but the lack of detailed flux measurements from livestock and poultry wastes would cause uncertainties in modeling its environmental impacts.Here,based on field flux measurements and laboratory experiments,we observed substantial HONO emissions from the composting of swine feces and chicken manure in the warm season,which might be mainly attributed to nitrification process in livestock and poultry wastes.The HONO emission from chicken manure was found to bemuch higher than that from swine feces,and the higher NH3 emission but lower N2O and NO emissions fromchicken manurewere also observed.Considering that the interaction among these nitrogen species during nitrification process,the obviously lower HONO emission from swine feces was likely to be explained by the lack of the total ammonia nitrogen and H+donors in swine feces.Temperature is also a key factor that influences the HONO emission from livestock wastes.In addition,the total HONO emission from swine feces in Chinawas estimated to be approximately 107.7 Gg-N/yr according to the national swine amounts,which is comparable to the national soil HONO emissions,underscoring its non-negligible contribution to regional air quality.Therefore,effective emission control of HONO fromlivestock and poultry wastes should be carried out to further improve air quality in China.
文摘Against the backdrop of global climate change and tightening resource constraints,sustainable agricultural development has emerged as a central issue for countries worldwide in addressing environmental challenges.As a major agricultural nation,China’s livestock industry accounts for over 35%of the total agricultural output value,serving as a crucial pillar for ensuring national nutritional security and rural economic development.However,traditional farming models have long relied on high-density rearing,excessive use of chemical inputs,and end-of-pipe pollution control measures.These practices have resulted in greenhouse gas emissions accounting for 45%of the agricultural total,an annual generation of over 3 billion tons of livestock manure,and a resource utilization rate of less than 60%.This“high-input,high-emission,low-efficiency”development path has not only exacerbated ecological issues such as soil degradation and water eutrophication but also undermined the industry’s international competitiveness and consumer trust due to food safety hazards like antibiotic residues and heavy metal contamination.In this context,Muyuan Group has actively pursued green technology innovation to achieve simultaneous enhancement of economic and ecological benefits.
文摘The agricultural sector, encompassing agriculture, forestry, and land use, significantly contributes to global greenhouse gas(GHG) emissions, accounting for 23% of the total(IPCC 2019). It faces substantial challenges due to population growth and the urgent need to reduce its GHG emissions. Livestock husbandry, a crucial component of agriculture, accounts for a significant proportion of agricultural GHG emissions(Nugrahaeningtyas et al. 2024). Reducing emissions from livestock is essential not only for addressing climate change but also for protecting the ecological environment and achieving sustainable development. This is a critical task for the future of our planet and the well-being of future generations.
文摘The Globally Important Agricultural Heritage Systems(GIAHS)embody a remarkable diversity of plants,crop varieties,livestock breeds,fisheries,and forests,shaped and sustained through centuries of interaction between people and nature.
基金supported by the Special Funds for Scientific and Technological Innovation of Jiangsu Province,China(Grant No.BE2022425)the National Natural Science Foundation of China(Grant No.72473124),the National Key Research and Development Program of China(Grant No.2022YFD1500404)+1 种基金the Jiangsu Province Postgraduate Research Innovation Program(Grant No.KYCX24-3785)a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD),China。
文摘Currently,research on the co-application of straw charcoal and organic fertilizer made from livestock and poultry manure remains limited,despite their demonstrated benefits in enhancing soil fertility and improving plant physiological traits.To investigate the effects of straw charcoal on paddy soil,an experiment was conducted in fields with stable soil properties characterized by clay loam texture in the Middle-Lower Reaches of the Yangtze River,China,using the rice cultivar Nanjing 5055.
基金Supported by B Category Projects of Fujian Provincial Department ofEducation (JB10132)Technology Start-up Projects of MinjiangUniversity (YKQ09003)~~
文摘[Objective]The paper was to quickly get the real-time dynamic status of regional farmland environmental pollution caused by livestock wastes.[Method] With WebGIS as spatial information platform,the network and digital early warning system of farmland environmental pollution caused by livestock wastes was established.[Result] The system realized the functions such as livestock wastes calculation,livestock information query and analysis,nitrogen load quantity estimation of livestock waste,early warning of farmland environmental pollution caused by livestock wastes and visual display of result.[Conclusion] The paper provided scientific basis for the relevant research on farmland environmental pollution caused by livestock wastes.
