微生物菌剂对油枯堆肥过程中理化性质的影响研究

以油枯为基本原料,采用好氧堆肥方式进行堆肥试验,研究了添加4种不同微生物菌剂的条件下,油枯-稻壳-甘蔗渣堆肥体系中pH、C/N、水溶性NO3--N、水溶性NH4＋-N中的动态变化规律及菌剂对高温堆肥腐熟进程的影响。结果表明,添加菌剂能有效缩短堆肥到达高温的时间,延长高温分解阶段,加快物料水溶性NH4＋-N和C/N降低,pH和水溶性NO3--N含量升高,加快了油枯堆肥腐熟化进程。添加VT菌剂的堆肥处理相比其他在堆肥15d后最先进入高温分解阶段,高温持续时间为10d,提早5d腐熟,水溶性NO3--N含量从71.41mg.kg-1增加到887.4mg.kg-1,C/N的降低有效促进了NH4＋-N向NO3--N的转化,加快了油枯堆肥化进程,有助于提高堆肥腐熟化程度,说明添加VT菌剂的堆肥腐熟效果相对显著。     

条垛堆肥 -蚯蚓堆肥联合处理对堆肥产品性状的影响

蚯蚓粪逐渐成为一种优质的有机肥,然而蚯蚓处理对有机肥属性影响的机制和过程并不清楚。本文选用Rw发酵菌对牛粪和蘑菇渣先进行高温好氧堆肥预处理,然后接种蚯蚓,监测了蚯蚓处理前后堆肥中关键质量属性的变化。结果表明:联合堆肥温度、NH4+-N含量、NH4+-N/NO3--N、T值、pH值、EC值、种子发芽指数均符合堆肥腐熟要求。联合堆肥显著提高了全磷含量、NO3--N含量(P0.05),增幅分别达到16.8%、1 286.1%;显著降低了有机质含量、全钾含量、pH值、EC值(P0.05),分别降低35.9%、77.4%、12.6%、56.1%;但未显著降低NH4+-N含量、全氮含量;显著提高了堆肥的品质,如T值从0.64降低到0.58,种子发芽指数从82.6%提高到90.6%(P0.05)。     

猪粪比例对烟草废弃物高温堆肥腐熟进程的影响

以烟草废弃物为基本原料进行堆肥试验,研究了不同比例猪粪与烟草废弃物混合堆肥体系中温度、pH、全氮、C/N比、水溶性NH＋4-N和种子发芽指数（GI,germination index）的动态变化规律,探讨了不同猪粪比例对烟草废弃物高温堆肥腐熟进程的影响。结果表明,在烟草废弃物中加入猪粪能缩短进入高温分解阶段的时间,增加高温分解持续时间,增加全氮含量,加快物料NH＋4-N和C/N比降低的速率,加快烟草废弃物堆肥腐熟化进程。添加一定比例猪粪的处理（烟草废弃物∶猪粪=7∶3、烟草废弃物∶猪粪=8∶2和烟草废弃物∶猪粪=9∶1）,分别在堆肥第3、4、5 d进入高温分解阶段（〉50 ℃）,高温持续时间分别为11、10、8 d;而纯烟草废弃物处理,最高温度为43 ℃,未进入高温分解阶段;至堆肥26 d,NH＋4-N含量分别比纯烟草废弃物对照降低47.7%、61.9%和25.6%;GI分别达到81.4%、84.1%和83.7%。     

两种微生物菌剂对烟草废弃物高温堆肥腐熟进程的影响

以烟草废弃物为主要原料,添加合适比例猪粪进行高温堆肥试验,研究了烟草废弃物堆肥体系中加入两种微生物菌剂（NNY、FB）后的温度、总氮（T-N）、NH4＋-N、C/N、种子发芽指数（GI）的动态变化及其对烟草废弃物堆肥产品品质的影响。结果表明,添加微生物菌剂缩短了烟草废弃物堆肥达到高温的时间,延长了高温分解持续时间,增加全氮含量,加快物料NH4＋-N和C/N比的降低速率,提高种子发芽指数（GI）,加快了烟草废弃物堆肥腐熟化进程。纯烟草废弃物单独堆肥,最高温度为43℃,GI最高为78.4%。添加微生物菌剂NNY、FB的堆肥处理都在堆肥2d后进入高温分解阶段（〉50℃）,高温持续时间分别为15、12d,较仅添加合适猪粪比例处理进入高温分解阶段时间提前2d,高温持续时间分别延长5、2d。至堆肥11d,添加微生物菌剂NNY和FB的堆肥处理种子发芽指数较纯烟草废弃物处理分别增加了185.5%和117.7%,较仅添加合适比例猪粪处理分别增加了41.4%和7.6%。添加NNY、FB微生物菌剂的处理可以显著增加烟草废弃物堆肥产品的N、P、K养分含量,降低堆肥容重,提高堆肥总孔隙度和持水孔隙度,改善了堆肥产品的品质。两种微生物菌剂对烟草废弃物高温腐熟效果较优。     

尿素作为补充氮源对西番莲果渣高温堆肥进程的影响

利用西番莲废果渣为基本原料进行堆肥试验,研究了添加尿素及2种微生物菌剂（榕风与福贝）在西番莲果渣堆肥过程中温度、C/N比、总氮（T-N）、水溶性NH4＋-N和水溶性NO3--N的动态变化规律。结果表明,加入一定比例的尿素能够增加高温堆肥中〉50℃的高温持续时间、减少最后达到环境温度所需时间;加快堆肥NH4＋-N的下降,促进堆肥化腐熟后期NO3--N的累积,增加腐熟后全氮的含量,加快堆肥化进程。在添加尿素的基础上,添加微生物菌剂,显著加快果渣堆肥中C/N比的下降速度,促进堆肥腐熟进程的作用效果更明显,但两种微生物菌剂之间对堆肥化的促进作用效果无显著差异。     

碳氮比对叶菜废弃物好氧堆肥效果的影响

为提高叶菜废弃物好氧发酵效率和堆肥质量,研究不同物料配比对叶菜废弃物好氧堆肥效果的影响,确定叶菜废弃物好氧堆肥的最佳碳氮比(C/N),以叶菜废弃物为主料,玉米秸秆、玉米秸秆+ 牛粪为辅料进行好氧发酵,调节初始C/N 为15、20、25,以pH、电导率、有机质、全氮、全磷、全钾以及种子发芽指数来评价好氧堆肥腐熟度及堆肥质量,筛选出叶菜废弃物好氧堆肥的最佳C/N。结果表明:B1 处理(C/N 为20,底料为叶菜废弃物+ 玉米秸秆)种子发芽指数为115.30%,B2 处理(C/N 为20,底料为叶菜废弃物+ 玉米秸秆+ 牛粪)种子发芽指数为126.77%,其堆肥物料腐熟程度最高,腐熟效果最好,B1 处理有机质分解率最高(22.71%),全效养分含量最高(6.4%),全氮、全磷、全钾含量分别增加了26.61%、62.17%、57.23%。综合来看,叶菜废弃物和玉米秸秆联合好氧发酵的C/N 为20 时堆肥效果最好,堆肥底料中添加适量牛粪可以提高堆体物料腐熟程度。     

接种微生物菌剂对猪粪堆肥的效果研究

研究了接种微生物菌剂对猪粪堆肥的效果。结果表明,添加菌剂堆肥温度第4 d达到50℃,50℃以上持续时间达10 d,第25 d粪大肠菌群值减少到102个/g,种子发芽指数达89%,NH4 -N含量为64.9 mg/kg,C/N下降为18.6∶1,上述指标均达到腐熟要求;对照堆肥温度第7 d达到50℃,50℃以上持续时间为4 d,第25 d粪大肠菌群值为9.6×103个/g,NH4 -N含量为916 mg/kg,C/N为21.0∶1,种子发芽指数为46.5%,均未达到腐熟要求。说明接种微生物菌剂能明显加速堆肥的腐熟进程。     

条垛堆肥 -袋装堆肥联合处理过程中肥料性状的变化规律

条垛堆肥 -袋装堆肥联合处理可以节省厂房和占地,并免去后期翻抛设备、运行和维护费用,同时大幅度提高养殖场的粪便无害化效率,然而袋装堆肥对肥料属性的影响却不明确。本文选用人元发酵菌对牛粪和蘑菇渣先进行高温好氧堆肥处理(体积比 2︰1),待堆体经过高温期后(温度降到 50℃以下)进行袋装堆肥,待堆体温度最终与环境温度一致后,对各处理堆肥进行理化性质分析。结果表明:联合堆肥温度、NH 4+-N含-量、NH4+-N/ NO3 -N、T值、pH值、EC值、种子发芽指数均符合堆肥腐熟要求。联合堆肥显著提高了全磷含-量、全钾含量、NO 3 -N含量、EC值( P<0.05),增幅分别达到12.2%、20.0%、2177.8%、108.3%;而有机质含量、pH值显著降低( P<0.05),分别降低33.4%、6.3%;另外,联合堆肥降低了全氮含量,降幅达到 16.2%(P>0.05)。     

施用铵态氮对森林土壤硝态氮和铵态氮的影响

对取自武夷山的红壤、黄壤、黄壤性草甸土分别在对照(CK,N 0 mg/kg)、低氮(LN,N 50 mg/kg)、高氮(HN,N 100 mg/kg)3种氮(N)水平处理下开展培养实验,研究施加NH4+-N对森林土壤N转化的短期影响.结果表明,添加NH4+-N可显著(p＜0.05)降低土壤NO3--N含量4.5％～25.7％,但LN与HN处理差异不显著,NO3--N降低可能与NO3--N反硝化和异氧还原有关;然而,黄壤性草甸土NO3--N没有降低.与培养前比较,在第56天红壤NO3--N含量显著增加5倍左右;桐木关黄壤增加40％左右,而黄冈山25 km黄壤仅在CK处理下增加16％,但是黄壤性草甸土显著降低;结果显示LN与HN处理土壤NO3--N含量变化幅度小于CK.与CK相比,LN和HN处理红壤NH4+-N分别显著(p＜0.05)升高24.1％ ～ 96.5％和68.7％～114.1％,且随培养进行没有累积,可能与微生物固N有关;桐木关NH4+-N分别升高17.6％ ～ 39.6％和37.6％～95.8％ (p＜0.05),LN处理黄冈山25 km黄壤NH4+-N只有第7天升高17.8％ (p＜0.05),HN处理第7、14、28、42天显著升高17.5％～48.6％(p＜0.05).LN处理黄壤性草甸土的NH4+-N在前3周显著降低11.6％～28.5％ (p＜0.01); HN处理在第7天和14天分别降低10.8％(p＜0.01)和7.5％,但是在第28～56天显著增加17.6％～20.4％(p=0.002).随着培养进行,CK处理红壤NH4+-N逐渐降低,桐木关黄壤、黄冈山25 km黄壤和黄壤性草甸土升高;LN和HN处理黄壤和黄壤性草甸土NH4+-N逐渐升高.可见,不同海拔土壤类型对NH4+-N添加响应存在差异.     

不同处理对高含水率奶牛粪便好氧堆肥的影响

针对奶牛养殖场粪便含水率高,堆肥处理成本高的特点,采用以干燥玉米秸秆为调理剂,在较高初始含水率条件下（70%～80%）,进行了强制通风堆肥槽和翻转式堆肥仓的对比试验,并且探讨了晾晒脱水作为预处理对堆肥效果的影响。结果表明,各处理堆体升温迅速,且均在50℃以上维持8～12d,满足堆肥无害化的卫生标准（GB7959—1987）要求。至堆肥结束时,各处理含水率均降至40%以下,C/N均降至20以下,WSOC均低于16g·kg-1,NH4＋-N含量均低于0.4g·kg-1;除采用堆肥槽在初始含水率为65%下堆肥NH4＋-N/NO3--N〉3尚未腐熟完全外,其他处理NH4＋-N/NO3--N均小于0.5,腐熟情况较好;所有处理的GI均大于50%,其中采用堆肥槽在较高初始含水率堆肥和晾晒预处理后堆肥GI已达80%,基本消除了植物毒性。采用较为开放的堆肥槽时,以玉米秸秆作调理剂,在较高的初始含水率条件下堆肥效果更好;以晾晒脱水作为预处理后堆肥,可减少所需调理剂的用量,节约了堆肥的成本。     

绿化植物废弃物堆肥对城市绿地土壤的改良效果

针对城市中普遍存在的绿地土壤退化和有机废弃物处理处置难的现状,选择典型城市土壤进行绿化植物废弃物堆肥不同用量的绿地现场土壤改良实验.结果表明:绿化植物废弃物堆肥能提高土壤持水能力;降低土壤的酸碱度;增加土壤有机质、总N、总P、有效P、生物量C、N和微生物总量;堆肥对土壤全K的含量总体影响不大,但速效K的含量却成倍增加;说明绿化植物废弃物能改善土壤理化性质,提高土壤肥力,且随着堆肥用量的增加,对土壤的改良作用也越显著;鉴于绿化植物废弃物高C/N,其用量宜控制在13240 kg/hm~2以内.绿化植物废弃物堆肥就地利用即能改良城市退化土壤,又减少城市废弃物量,有利于提高城市生态环境质量.     

Mineralization and N Fertilizer Equivalent Value of Composts as Assessed by Tall Fescue (Festuca arundinacea)

The capability to determine nitrogen availability of composts is necessary to ensure that such materials will provide sufficient fertilization to the growing crop and cause minimal environmental degradation. A greenhouse study using tall fescue as a bioindicator was used to evaluate nitrogen availability of two biosolids composts, two mixed yard waste-poultry manure composts, and one commercially-processed poultry litter. Five inorganic nitrogen (as NH₄NO₃-N) treatments applied at 0, 22.5, 45, 67.7, and 90 mg N/kg soil were employed to establish an N calibration curve. Yield, fescue biomass total nitrogen (as total Kjeldahl N (TKN)), and soil TKN and KCl extractable NO₃^?-N and NH₄⁺-N concentrations of the organically amended treatments were compared to the inorganically fertilized treatments to determine amendment N mineralization rates and N fertilizer equivalent values (NFEV). Nitrogen mineralization rates were greatest in the poultry litter (21%) and Panorama yard waste compost (5%) amended pots. The NFEV of these amendments were 49% and 10%, respectively. Wolf Creek biosolids compost and Huck's Hen Blend yard waste compost immobilized N (?5% and 0.18%, respectively), and had percent NFEV of ?0.66% and 0.19%, respectively. Rivanna biosolids compost immobilized N (?15%), but the NFEV was 30% due to the relatively high inorganic N content in the amendment. Nitrogen mineralization and NFEV were generally greater in amendments with greater total N concentrations and lower C:N values. The total N concentration and C:N values were less reliable variables in predicting N mineralization and percent NFEV when a significant portion of the total N was in the inorganic form. Nitrogen equivalency value and N mineralization for each amendment increased with time of sampling, indicating the potential for early season N insufficiency to plants fertilized with compost due to lack of synchrony between N mineralization and plant N needs.     

添加木炭改善猪粪稻壳好氧堆肥工艺及质量

为促进农业废弃物的资源化利用,试验以猪粪和稻壳为原料,用化学分析和仪器分析相结合的方法,研究了添加不同质量分数（0、2.5%、5.0%、7.5% 和10.0%）的木炭对60 d猪粪好氧堆肥过程的影响。结果表明：在堆肥有机质的降解过程中,含-OH、-CH3和-CH2基团的化合物的质量分数逐渐减少,含-C=O、C-O-C、-COO基团和含芳香环类物质的质量分数逐渐增加。添加木炭能促使堆肥物料的降解,随着木炭添加量的增加,在60 d的堆肥过程中,各处理有机碳的质量分数分别降低了12.23%、13.77%、14.88%、15.36%和15.86%,碳氮比分别下降了47.80%、54.98%、56.97%、60.03%和65.73%。与对照相比,添加木炭可延长堆肥高温期的停留时间3～ 5 d,增加堆肥物料的持水能力并降低堆肥产品的电导率;同时,添加木炭还能减少堆肥初期氨气的挥发,提高铵态氮的质量分数,促使堆肥后期硝态氮的转化。堆肥结束时,添加木炭可使硝态氮的质量分数提高55.86%～89.32%,总氮的质量分数提高20.55%～53.07%,雪里蕻种子发芽率提高17.6%～41.2%,萌发指数达1.02～1.44。研究表明,添加木炭能促进堆肥有机物料的降解,加快堆肥腐熟脱毒,增加堆肥产品总氮的质量分数,提高产品质量。木炭作为一种潜在的猪粪堆肥添加剂,在促进农业废弃物资源化利用方面具有广阔的应用前景。     

过磷酸钙在病死猪堆肥中保氮效果研究

为研究不同比例的过磷酸钙添加剂对病死猪堆肥过程中氮素转化和保氮效果的影响,本试验将病死猪尸体、水稻秸秆按一定比例混合后,设置未添加(CK)、添加5%(T1)和10%(T2)过磷酸钙3个处理,进行了为期30 d的堆肥发酵试验。结果表明,各堆体大于50℃的高温均能保持10 d以上,满足堆肥无害化的要求;添加初始物料鲜重的5%和10%的过磷酸钙对降低堆肥的p H值,增加堆肥的铵态氮、硝态氮、全氮含量均具有明显的效果。堆肥结束时,T1、T2处理的堆肥产品的总氮含量分别比对照高10.7%、10.1%,保氮效果显著。添加5%过磷酸钙处理的堆肥产品在第14 d时种子发芽指数达101.4%,高于对照,过磷酸钙促进了病死猪堆肥的快速腐熟。在病死猪堆肥中添加适量的过磷酸钙,可以降低堆体氮的损失,在堆肥工程中具有较广阔的应用前景。     

Menge und Verteilung des Stickstoffs in Fulvo-, Humin- und Kieselsäure-Huminsäuren eines Müll-Klärschlamm-Kompostes

Amount and distribution of nitrogen in fulvic-, humic- and silico humic acids from a garbage-sewage sludge compost During the course of composting for 106 days of a mixture of solid wastes and sewage sludge subsamples were taken at different time intervals. They were extracted for fulvic-, humic- and silico-humic acids which in turn were fractionated for different nitrogen fractions. Basic nitrogen fractions such as amino acids (AS), amino sugars (AZ), real amide nitrogen (ADe), pseudo amide nitrogen (ADp), remainder nitrogen of the hydrolysate (RNHY) and total nonhydrolyzable nitrogen (ΣNnhy) have been determined. The most pronounced transformations of nitrogen within the organic matter of the compost took place during the first 10–14 days of composting.     

Growth of Rudbeckia and Leaching of Nitrates in Potting Media Amended with Composted Coffee Processing Residue,Municipal Solid Waste and Sewage Sludge

Composts made from coffee processing residue (CFPR), source separated municipal solid waste (MSW), sewage sludge and wood chips (SSWC), and sewage sludge, wood ash, wood chips and leaves (SSACL) were examined as replacements for the peat, perlite and sand found in a conventional potting medium. The perennial flower Rudbeckia hirta L. ‘Goldilocks’ (Black-Eyed Susan) was grown in media composed of 0, 10, 25, 50, 80, and 100 (percent by vol) of each compost. Leachate from media containing 0, 25, 50, and 100% compost was tested for NO₃-N and NH₃-N + NH₄-N to determine if compost would increase the potential for potting media to be a source of nitrate in surface and ground water. The effects of two mid season applications of liquid fertilizer on plant growth and nitrogen leaching were also examined.

Compared to a conventional medium without compost, differences in the growth of Rudbeckia in media with compost were few. Statistically significant decreases in growth occurred in media containing 80 and 100% CFPR, and 80% SSACL. None of the composts caused a statistically significant increase in growth. Leaching of nitrogen increased from media containing 100% CFPR, SSWC and SSACL compared to the medium with no compost. Media containing 25, 50, and 100% MSW leached less N the conventional medium. Liquid fertilizer did not significantly change the growth of Rudbeckia or the amount of nitrogen found in the leachate from any medium.     

除臭菌株对NH_3和H_2S释放及物质转化的影响

将通过高温和氨水逐级驯化筛选的除臭菌株用于牛粪堆肥,研究其对NH3和H2S释放量及物质转化的影响。其中菌株B1与A1除臭效果最好,NH3总释放量较对照分别降低68.59%和61.00%,NH4＋-N仅增加4.47%和7.19%,NO3-N略有提高,而有机氮分别增加28.99%和27.42%,说明除臭菌株能将无机态氮转化为有机氮,使全氮含量提高19.81%和18.80%,有效地减少了氮素损失;H2S总释放量较对照分别降低89.69%和86.88%,硫酸盐增加40.77%和36.49%,说明菌株可有效促进H2S向硫酸盐转化,减少H2S挥发,使全硫含量提高29.05%和22.64%。相关分析显示NH3释放量与H2S释放量、pH呈极显著正相关,与全氮、有机氮和硫酸盐呈负相关;H2S释放量与pH呈显著正相关,而与全硫和硫酸盐呈负相关。添加与未添加除臭菌株的NH3和H2S释放量经方差分析差异达到显著水平,表明添加除臭菌株可有效地控制牛粪堆肥NH3和H2S释放,保留氮素和硫素养分。     

Growth of Rhododendron,Rudbeckia and Thujia and the Leaching of Nitrates as Affected by the pH of Potting Media Amended with Biosolids Compost

A conventional potting media containing peat moss, softwood bark and sand was amended to contain 0,25,50,75 and 100 (percent vol^?1) municipal compost made from yard waste and biosolids. Each medium was adjusted with limestone and sulfur to an approximate pH of 5.0, 6.0 or 7.0. Rhododendron Panticum L. ‘Anah Kruschke’ (Rhododendron), Thujia occidentalis L. (Arborvitae) and Rudbeckia hirta L. ‘Goldilocks’ (Black-eyed Susan) were grown in each medium and pH level for 18 months. Leachate from pots was tested for NO₃-N and NH₃-N+NH₄-N to determine how media pH and the amount of compost effected the potential for potting media to be a source of nitrate in surface and ground water.

Media pH affected plant growth more than the percent compost. Compared to media with a pH of 7.0, statistically significant increases in the growth of Rhododendron occurred in media with a pH of 5.0 or 6.0. This pH effect was similar but less pronounced for Thujia. Growth of Rudbeckia was not effected by media pH or percent compost. Media with 0 and 25 percent compost leached the least nitrogen regardless of pH. Media with 75 and 100 percent compost at pH 5.0 and 6.0 leached the most nitrogen. The increase in nitrogen leaching in the more acidic media was associated with higher concentrations NH₃-N+NH₄-N. Nitrogen in leachate was greatest during the four weeks immediately after the pots were placed in the field and four weeks after fertilizer was applied in June of the second year of the experiment.     

生物质炭对蔬菜废弃物堆肥化过程氮素转化的影响

为了研究添加生物质炭对蔬菜废弃物堆肥化处理过程中氮素转化特征的影响,分析堆肥过程中氮素的转化及损失规律,用西红柿茎蔓、玉米秸秆和猪粪按一定比例混合后添加不同比例的生物质炭,进行了为期30 d的堆肥发酵试验。结果表明,添加生物质炭能够提高堆体温度,使堆体快速进入高温期,延长高温持续时间,可降低挥发性氨的累积释放量,减少堆肥过程中的氮素损失,从而提高堆肥产品全氮的含量,并可促进堆肥后期NH+4-N向NO-3-N转化,提高非酸水解态氮的含量。添加生物质炭有利于堆肥的腐熟,在堆肥第18 d添加较高比例的生物质炭的处理其NH+4-N/NO-3-N≤0.5,堆肥产品达到腐熟。综合保氮和腐熟效果,蔬菜废弃物在堆肥化过程中以添加10%的生物质炭为最佳。     

自然降雨下玉米秸秆堆沤还田对滇中小流域坡耕地氮素流失的影响

为探究自然降雨下不同堆沤方式秸秆还田对小流域坡耕地径流泥沙及氮素流失的影响,以滇中二龙潭流域坡耕地为研究对象,设置9种不同玉米秸秆堆沤方式,分别为CK及8种处理,各处理包括2种秸秆还田量(0.75,1.5 kg/m^2)、2种秸秆粒度(1,5 cm)、2种秸秆堆沤方式(水或水与尿素堆沤),研究烤烟坡耕地产流产沙及氮素流失特征。结果表明:(1)在4场具有典型产流的降雨中,施用较高秸秆还田量(1.5 kg/m^2)和粗颗粒秸秆(5 cm),均可有效减少坡耕地产流产沙量(10.06%~38.60%和10.07%~38.60%);(2)施用较低秸秆还田量(0.75 kg/m^2)、粗颗粒秸秆(5 cm)及未添加尿素堆沤的秸秆径流TN、NO3--N浓度低于施用高秸秆还田量(1.5 kg/m^2)、细颗粒秸秆(1 cm)及添加尿素堆沤的处理(1.96%~32.79%和3.97%~40.89%);(3)各处理下NO3--N/TN、NH4+-N/TN、PN/TN分别为63.64%~86.18%,5.31%~13.86%和5.33%~25.80%,表明坡耕地地表径流氮素主要流失形式为NO3--N,溶解态氮是径流中的主要氮素污染物;(4)施用较低秸秆还田量(0.75 kg/m^2)、粗颗粒(5 cm)秸秆、未加尿素堆沤的秸秆,泥沙TN流失浓度降低(16.87%~48.15%);(5)施用较高秸秆还田量、粗颗粒秸秆及未添加尿素堆沤可有效降低滇中坡耕地氮素的流失风险(0.32%~35.05%和54.52%~77.23%)。TN径流和泥沙流失中,以径流输出为主,占TN流失量的50.09%~71.67%。为了减少该流域氮素流失量,可选择施用较高秸秆还田量(1.5 kg/m^2)和粗颗粒(5 cm)秸秆,并依据烤烟不同生长期的吸收情况和土壤养分情况等选择少量或不添加尿素堆沤进行秸秆还田。