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Spatial and temporal variations in nitrogen retention effects in a subtropical mountainous basin in Southeast China
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作者 LIU Mei-bing CHEN Xing-wei +2 位作者 CHEN Ying GAO Lu DENG Hai-jun 《Journal of Mountain Science》 SCIE CSCD 2021年第10期2672-2687,共16页
Nitrogen retention within a watershed reduces the amount of N exported to the ocean;however, it worsens environmental problems, including surface water eutrophication, aquifer pollution, acid rain, and soil acidificat... Nitrogen retention within a watershed reduces the amount of N exported to the ocean;however, it worsens environmental problems, including surface water eutrophication, aquifer pollution, acid rain, and soil acidification. Here, we adopted the Soil and Water Assessment Tool(SWAT) model to describe the riverine N output and retention effects in the Shanmei Reservoir Basin, a subtropical mountainous basin located in Quanzhou City, Southeast China. The results revealed that farmlands and orchards in the upstream and central parts of the basin were the dominant land use types, which contributed large N yields. Fertilizer application was the key source of riverine N output and N retention within the basin. On average, approximately 64% of anthropogenic N inputs were retained within the basin, whereas 36% of total N was exported to the downstream and coastal areas. The average N retention efficiency was 80% in a dry year, and within the year, N retention occurred in spring and summer and N release occurred in autumn and winter. The annual variation in N retention within the basin was largely dominated by changes in rainfall and runoff, whereas the seasonal characteristics of N retention were mainly affected by fertilization. Even with a large decrease in fertilizer application, owing to the contributions of the residual N pool and river background, the riverine N output still maintained a certain base value. The effects of precipitation, land use types, and agricultural fertilizer on N retention should be comprehensively considered to implement reasonable N management measures. 展开更多
关键词 nitrogen retention Riverine nitrogen output Precipitation and runoff Fertilization management Subtropical mountainous basin
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Effect of exogenous additives on heavy metal passivation and nitrogen retention in pig manure composting
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作者 Ziqi WANG Guotao SUN +1 位作者 Jiamin WANG Gongshe YANG 《Frontiers of Agricultural Science and Engineering》 CSCD 2024年第3期468-484,共17页
The widespread use of feed additives in intensive and large-scale pig farming has resulted in high levels of heavy metals in pig manure.The long-term application of organic fertilizers containing high levels of heavy ... The widespread use of feed additives in intensive and large-scale pig farming has resulted in high levels of heavy metals in pig manure.The long-term application of organic fertilizers containing high levels of heavy metals leads to the accumulation of heavy metals in the soil,which not only causes heavy metal pollution in the soil,and also affect food safety and endanger human health.Composting is an economical and effective technical measures to achieve environmentally-sustainable treatment of pig manure and is a practical method to reduce the problem of heavy metals and to improve the resource value of pig manure.The composting process is accompanied by high temperatures and the production and emission of gases,and also lead to changes in the nitrogen content of the compost and provide opportunity for heavy metal passivation additives.This paper summarizes the forms and types of heavy metals present in pig manure and reviews the progress of research as well as the techniques and problems of in the composting process,and provides recommendations for research on heavy metal passivation and nitrogen retention in pig manure composting. 展开更多
关键词 ADDITIVES COMPOSTING heavy metals passivation nitrogen retention pig manure
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The fate of ^(15)N-labeled nitrogen inputs to pot cultured beech seedlings
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作者 Ali Bagherzadeh Rainer Brumme Friedrich Beese 《Journal of Forestry Research》 SCIE CAS CSCD 2009年第4期314-322,I0005,共10页
The partitioning of nitrogen deposition among forest soil (including forest floor), leachate and above- and belowground biomass of pot cultured beech seedlings in comparison to non-cultured treatments were investiga... The partitioning of nitrogen deposition among forest soil (including forest floor), leachate and above- and belowground biomass of pot cultured beech seedlings in comparison to non-cultured treatments were investigated by adding 1.92 g.m^-2 ^15N tracer in throughfall for two successive growing seasons at a greenhouse experiment. Ammonium and nitrate depositions were simulated on four treatments (cultured and non-cultured) and each treatment was labeled with either ^15N-NH4^+ or ^15N-NO3^-. Total recovery rates of the applied ^15N in the whole system accounted for 74.9% to 67.3% after ^15N-NH4^+ and 85.3% to 88.1% after ^15N-NO3^-in cultured and non-cultured treatments, respectively. The main sink for both ^15N tracers was the forest soil (including forest floor), where 34.6% to 33.7% of ^15N-NH4^+ and 13.1% to 9.0% of ^15N-NO3^-were found in cultured and non-cultured treatments, respectively, suggesting strong immobilization of both N forms by hetero- trophic microorganisms. Nitrogen immobilization by microorganisms in the forest soil (including forest floor) was three times higher when ^15N-NH4^+ was applied compared to ^15N-NO3^-. The preferential heterotrophic use of ammonium resulted in a two times higher retention of deposited ^15N-NH4^+ in the forest soil as compared to plants. In contrast, nitrate immobilization in the forest soil was lower compared to plants, although statistically it was not significantly different. In total the immobilization of ammonium in the plant-soil system was about 60% higher than nitrate, indicating the importance of the N-forms deposition for retention in forest ecosystems. 展开更多
关键词 ^15N tracer nitrogen retention and recovery beech seedling forest soil IMMOBILIZATION nitrogen budget
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Influence of dietary Lys levels and dietary net energy levels on growth performance and nitrogen balance of growing pigs
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作者 CHEN Liu WANG Kang-ning 《Journal of Agricultural Science and Technology》 2009年第6期17-23,共7页
Two experiments were conducted to determine the effects of L y s ine(Lys) and Net Energy (NE) levels on growth performance (Exp. I) and N balance (Exp. 2) in growing pig. In Exp. 1, 36 castrated pigs [21.35 -4... Two experiments were conducted to determine the effects of L y s ine(Lys) and Net Energy (NE) levels on growth performance (Exp. I) and N balance (Exp. 2) in growing pig. In Exp. 1, 36 castrated pigs [21.35 -4- 0.55 kg of body weight (BW)] were allotted to six treatments with six replicates per treatment. Pigs were fed two levels of Lys (low and high) and three levels of NE (low, med, or high) in a 2×3 factorial arrangement. The experiment lasted for 35 d. There were no effects of dietary Lys and NE on pig performance (P〉0.05, but a Lys×NE interaction in ADG was observed (P〈0.05). In Exp. 2, 24 pigs were used to determine the effects of diet in Exp. 1 on pig N balance. Neither Lys nor NE level affected N retention (g/d) (P〉0.0). Lys×NE interaction in N retention (g/d) (P〈0.01) and in N apparent biological value (ABV) (P〈0.05) was observed. Pigs fed the low Lys diet had lower serum urea nitrogen (SUN) concentrations compared with the high Lys treatment (P〈0.01). Pigs fed the med-NE diet had lower SUN concentrations compared with the pigs fed the low-NE diet (P〈0.1). These results suggest that pigs from 21 kg to 50 kg BW fed diets containing 0.83% standardized ileal digestible Lysine and 2351 Kcal of NE/kg had maximum ADG and N retention. 展开更多
关键词 LYSINE net energy PERFORMANCE nitrogen retention growing pigs
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Magnetized Water Improves Digestion and Growth of Lambs
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作者 Xie Jiaxun Luo Qiujiang +2 位作者 Zang Changjiang Liu Shimin Pan Rong 《Animal Husbandry and Feed Science》 CAS 2020年第2期1-7,共7页
Twelve of weaned Small-tail Han male lambs,with body weight of(7.99±1.04)kg,at 30 days of age,were divided into two groups to study the effect of drinking magnetized water(MW)on digestion and metabolism of lambs.... Twelve of weaned Small-tail Han male lambs,with body weight of(7.99±1.04)kg,at 30 days of age,were divided into two groups to study the effect of drinking magnetized water(MW)on digestion and metabolism of lambs.The voluntary intake and ADG from 30 to 240 days of age were measured,twice of digestion and metabolism trial were carried out,and at the age of 240 days slaughter test was conducted.The results showed that drinking MW significantly increased voluntary feed intake(27.2%),ADG(27.4%)and apparent digestibility of DM(17.9%),OM(20.2%),CP(22.8%),and energy(12.7%),respectively.The nitrogen retention in two experimental trials significantly increased by 43.9%and 28.9%,respectively.Drinking MW significantly increased live body weight(24.5%),carcass weight(28.2%),carcass net meat weight(25.5%),carcass lean weight(32.5%)and carcass fat weight(31.3%),respectively.The fresh weights of liver,kidney,rumen,longissimus dorsi and leg muscle of lambs drinking MW increased significantly,but there was no significant difference in their contents of DM,OM and CP.It is concluded that drinking MW is beneficial for increasing voluntary feed intake,digestibility,and ADG,and improving slaughter performance of lambs. 展开更多
关键词 Magnetized water LAMB Feed intake LEAN nitrogen retention
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Nitrogen-retaining property of compost in an aerobic thermophilic composting reactor for the sanitary disposal of human feces 被引量:18
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作者 Fan BAI Xiaochang WANG 《Frontiers of Environmental Science & Engineering》 SCIE EI CSCD 2010年第2期228-234,共7页
Aerobic composting is a method for the sanitary disposal of human feces as is used in bio-toilet systems.As the products of composting can be utilized as a fertilizer,it would be beneficial if the composting condition... Aerobic composting is a method for the sanitary disposal of human feces as is used in bio-toilet systems.As the products of composting can be utilized as a fertilizer,it would be beneficial if the composting conditions could be more precisely controlled for the retention of fecal nitrogen as long as possible in the compost.In this study,batch experiments were conducted using a closed aerobic thermophilic composting reactor with sawdust as the bulk matrix to simulate the condition of a bio-toilet for the sanitary disposal of human feces.Attention was paid to the characteristics of nitrogen transformation.Under the controlled conditions of temperature at 60°C,moisture content at 60%,and a continuous air supply,more than 70%fecal organic removal was obtained,while merely 17%fecal nitrogen loss was observed over a two-week composting period.The nitrogen loss was found to occur mainly in the first 24 h with the rapid depletion of inorganic nitrogen but with an almost unchanged organic nitrogen content.The fecal NH4-N which was the main component of the inorganic nitrogen(>90%)decreased rapidly in the first day,decreased at a slower rate over the following days,and finally disappeared entirely.The depletion of NH4-N was accompanied by the accumulation of NH3 gas in the ammonia absorber connected to the reactor.A mass balance between the exhausted NH3 gas and the fecal NH4-N content in the first 24 hours indicated that the conversion of ammonium into gaseous ammonia was the main reason for nitrogen loss.Thermophilic composting could be considered as a way to keep a high organic nitrogen content in the compost for better utilization as a fertilizer. 展开更多
关键词 nitrogen retention composting reactor human feces AEROBIC THERMOPHILIC FERTILIZER
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Nitrogen transformations during co-composting of herbal residues,spent mushrooms,and sludge 被引量:4
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作者 Dong-lei WU Ping LIU +2 位作者 Yan-zhang LUO Guang-ming TIAN Qaisar MAHMOOD 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2010年第7期497-505,共9页
Sewage sludge composting is an important environmental measure. The reduction of nitrogen loss is a critical aim of compost maturation, and the addition of spent mushrooms (SMs) and herbal residues (HRs) may be helpfu... Sewage sludge composting is an important environmental measure. The reduction of nitrogen loss is a critical aim of compost maturation, and the addition of spent mushrooms (SMs) and herbal residues (HRs) may be helpful. To evaluate the nitrogen transformations during co-composting of sewage sludge, SMs, and HRs, windrows were constructed in a residual processing plant. Dewatered sewage sludge and sawdust were mixed with SMs and HRs at two proportions on a fresh weight basis, 3:1:1 (sewage sludge:sawdust:SMs or HRs) and 3:1:2 (sewage sludge:sawdust:SMs or HRs). The mixture was then composted for 40 d. Changes in the physicochemical charac- teristic of sewage sludge during composting were recorded and analyzed. Addition of SMs and HRs accelerated the temperature rise, mediating a quicker composting maturation time compared to control. The addition also resulted in lower nitrogen losses and higher nitrate nitrogen levels in the compost products. Among the windrows, SM and HR addition improved the nitrogen status. The total nitrogen (TN) and nitrogen losses for SM and HR treatments ranged from 22.45 to 24.99 g/kg and from 10.2% to 22.4% over the control values (18.66-21.57 g/kg and 40.5%-64.2%, respectively). The pile with the highest proportion of SMs (3:1:2 (sewage sludge:sawdust:SMs)) had the highest TN level and the lowest nitrogen loss. The germination index (GI) values for all samples at maturity were above 80%, demonstrating optimal maturity. The addition of SMs and HRs augments sewage composting. 展开更多
关键词 Sewage sludge Spent mushrooms Herb residues Maturity nitrogen retention Co-compost
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Adding polyethylene glycol to steer ration containing sorghum tannins increases crude protein digestibility and shifts nitrogen excretion from feces to urine 被引量:1
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作者 Biao Xie Xiao Yang +2 位作者 Ling Yang Xianjiang Wen Guangyong Zhao 《Animal Nutrition》 SCIE CSCD 2021年第3期779-786,共8页
The objectives of the experiment were to study the effects of adding polyethylene glycol(PEG)to steer ration containing high sorghum tannins on rumen fermentation,nutrient digestion,nitrogen(N)balance and plasma bioch... The objectives of the experiment were to study the effects of adding polyethylene glycol(PEG)to steer ration containing high sorghum tannins on rumen fermentation,nutrient digestion,nitrogen(N)balance and plasma biochemical parameters.Eight growing steers at 16 months of age were allotted to a replicated 4×4 Latin square design with 4 treatments and 4 periods(19 d each).Polyethylene glycol at 0,1.75,3.50 and 7.00 g/kg dry matter(DM)were added to a basal ration containing 27.82%DM of sorghum grain(total tannins 3.3 g/kg DM)as the treatments.The results indicated that adding PEG quadratically increased the ruminal pH(P=0.049),tended to linearly increase the ruminal concentration of total volatile fatty acids(P=0.070),increased the molar proportion of acetate(P=0.016),linearly decreased the molar proportion of butyrate(P=0.015),and tended to increase the molar proportion of iso-valerate(P=0.061)and the ruminal concentration of ammonia N(P=0.092).Adding PEG tended to quadratically decrease the relative abundance of methanogenic archaea(P=0.082),linearly decreased the relative abundance of Fibrobacter succinogenes(P=0.008)and decreased the relative abundance of Butyrivibrio fibrisolvens(P=0.048)at 7.00 g/kg DM.Dietary addition with PEG increased the crude protein(CP)digestibility(P<0.001)and tended to increase the neutral detergent fiber digestibility(P=0.066)in a linear manner.Adding PEG to basal ration also increased the plasma globulin concentration(P=0.029)and tended to linearly increase the plasma total protein concentration(P=0.069).Adding PEG linearly decreased the fecal N excretion(P<0.001)and the fecal N-to-total N excretion ratio(P=0.004)and increased the urinary N-to-total N excretion ratio(P=0.004)and urinary urea excretion(P=0.010)without affecting the urinary N and total N excretions(P>0.05).It was concluded that adding PEG effectively improved the CP digestibility of the ration containing high sorghum tannins but increased the urinary urea excretion without improving the N retention and N retention rate in steers. 展开更多
关键词 Sorghum tannin Polyethylene glycol Cattle Rumen fermentation Nutrient digestibility nitrogen retention
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Soil fauna accelerated litter C and N release by improving litter quality across an elevational gradient
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作者 Li Zhang Jingru Liu +10 位作者 Rui Yin Zhenfeng Xu Chengming You Han Li Lixia Wang Sining Liu Hongwei Xu Lin Xu Yang Liu Yong Wang Bo Tan 《Ecological Processes》 SCIE EI CSCD 2023年第1期632-644,共13页
Background Soil fauna is an important driver of carbon(C)and nitrogen(N)release from decomposing litter in forest ecosystems.However,its role in C and N cycling concerning climate and litter traits remains less known.... Background Soil fauna is an important driver of carbon(C)and nitrogen(N)release from decomposing litter in forest ecosystems.However,its role in C and N cycling concerning climate and litter traits remains less known.In a 4-year field experiment,we evaluated the effects of soil fauna on litter C and N release across an elevation gradient(453,945,3023,and 3582 m)and litter traits(coniferous vs.broadleaf)in southwestern China.Results Our results showed that N was retained by–0.4%to 31.5%,but C was immediately released during the early stage(156–516 days)of decomposition for most litter species.Soil fauna significantly increased the peak N content and N retention across litter species,but reduced the C/N ratio for certain species(i.e.,Juniperus saltuaria,Betula albosinensis,Quercus acutissima,and Pinus massoniana litter),leading to more C and N being released from decomposing litter across the elevation gradient.Contributions of soil fauna to C and N release were 3.87–9.90%and 1.10–8.71%,respectively,across litter species after 4 years of decomposition.Soil environment and initial litter quality factors caused by elevation directly affected litter C and N release.Changes in soil fauna resulting from elevation and fauna exclusion factors had a direct or indirect impact on C and N release during litter decomposition.Conclusions Our findings suggest that soil fauna promote C and N release from decomposing litter in different magnitudes,mainly controlled by environmental conditions(i.e.,temperature and moisture),litter quality(i.e.,lignin and cellulose content,and lignin/cellulose),and its diversity across the elevation gradient. 展开更多
关键词 Carbon remaining nitrogen remaining nitrogen retention Soil fauna Elevational gradient
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