有机无机肥长期配施对果园土壤碳库及温室气体排放的影响

有机肥的施用可以提高土壤总有机碳和活性有机碳含量,在改善土壤质量,提升土壤肥力方面有重要意义.设4个处理：不施肥（CK）、单施有机肥（M）、单施化肥（NPK）和有机无机肥配施（MNPK）,研究长期有机无机配施下土壤有机碳和其活性组分含量变化,分析不同施肥措施对温室气体排放的影响,并评估了土壤碳库管理指数的变化.结果表明,与CK处理相比,MNPK处理的土壤总有机碳（TOC）、微生物量碳（MBC）、可溶性有机碳（DOC）、易氧化有机碳（EOC）和颗粒有机碳（POC）含量分别增加了82.84%、66.30%、21.12%、93.28%和145.80%.NPK处理对土壤总有机碳和有机碳组分含量无显著差异.有机无机配施有利于提高土壤碳库活度指数（LI）、土壤碳库指数（CPI）和土壤碳库管理指数（CPMI）,LI和CPI的增加是CPMI增加的主要原因.相关分析表明土壤有机碳组分和CPMI与温室气体排放呈显著正相关关系;有机无机配施增加了CO₂累积排放量和增温潜势（GWP）,但却能够降低温室气体排放强度（GHGI）;MNPK处理产量最高,为56365 kg ·hm^-2,较CK处理（29073 kg ·hm^-2）提高了93.87%.因此,旱地苹果园有机无机肥配施,可促进有机碳的累积,稳定土壤碳库,更有利于果园的可持续发展.     

有机肥与无机肥配施对潮土N2O排放的影响

华北平原是我国重要的粮食主产区,由于土壤有机质含量低,增加氮肥用量并不能导致玉米产量持续增加.有机肥和无机肥配施被广泛认为是同时实现粮食增产和提高土壤有机质的双赢措施,但是有机肥和无机肥配施对华北平原农田N_2O排放的影响尚不明确.本研究在华北平原潮土区,通过测定不同种类有机肥与无机肥配施后农田N_2O排放通量和作物产量,旨在揭示不同种类有机肥及其用量对潮土N_2O排放和作物产量的影响效应.田间试验共设置8个处理,分别为不施肥(CK)、化肥氮(NPK)、 40%牛粪氮+60%化肥氮(CM)、 40%鸡粪氮+60%化肥氮(FC)、 40%猪粪氮+60%化肥氮(FP)、 20%牛粪氮+80%化肥氮(1/2CM)、 20%鸡粪氮+80%化肥氮(1/2FC)和20%猪粪氮+80%化肥氮(1/2FP).整个玉米季N_2O排放通量均与土壤WFPS显著正相关(P0.05).除NPK处理外,玉米季N_2O排放量与土壤可溶性有机碳(DOC)平均含量存在显著的线性关系.玉米季CK处理N_2O排放量为0.50 kg·hm~(-2),NPK处理增加到2.28 kg·hm~(-2).相同用量不同种类有机肥处理,N_2O排放未出现显著差异. 40%有机肥氮用量处理下N_2O排放量与NPK处理无显著差异,而用量减少至20%后, 1/2CM、 1/2FC和1/2FP处理N_2O排放量分别较CM、 FC和FP减少了33.6%、 43.7%和12.1%,其主要原因为易分解有机碳输入减少,土壤DOC含量降低,但玉米产量未出现显著差异.因此,从减少温室效应的角度,玉米季80%化肥氮配施20%有机肥氮为本地区农田施肥的较佳选择.     

化肥减量有机替代对紫色土旱坡地土壤氮磷养分及作物产量的影响

化肥减量配施有机肥是实现环境友好,保持耕地质量的国家战略,对防治土壤污染和实现农业可持续发展具有重要意义.以三峡库区紫色土旱坡地为研究对象,通过田间试验研究了在油菜/玉米轮作模式下,对照处理、常规施肥、优化施肥、生物炭（化肥减量配施生物炭）及秸秆还田（化肥减量配施秸秆还田）这5个处理对土壤氮、磷形态、作物氮磷含量、肥料利用率及作物产量的影响.结果表明,土壤铵态氮含量在油菜季的秸秆处理最高,为4.51 mg·kg^-1.各处理玉米季的土壤铵态氮和碱解氮含量均明显高于油菜季.化肥减量配施有机肥可以保障并提高土壤全氮的含量.其中,秸秆处理的油菜季和玉米季土壤全氮含量均最高,分别为0.56 g·kg^-1和0.60 g·kg^-1.秸秆处理的油菜季土壤有效磷含量最高（0.76 mg·kg^-1）.化肥减量配施有机肥的土壤全磷含量较常规处理没有显著差异（P>0.05）.化肥减量配施有机肥表现出略有增产的趋势,其中生物炭处理的油菜产量最高（2328 kg·hm^-2）;常规处理的玉米产量最高（5838 kg·hm^-2）.无论油菜季还是玉米季,各化肥减量处理较常规处理都普遍提高了氮肥和磷肥的农学利用率.在紫色土地区中,化肥减量配施生物炭和秸秆还田均有利于改善土壤养分、提高化肥利用率,达到减少氮肥、磷肥施用量和提高作物产量的效果.     

不同畜禽粪与化肥配施对黑土中Cu有效性的影响及相关因素分析

本文通过培养试验,研究了不同畜禽粪与化肥配施对黑土中Cu总量及形态3年内动态变化的影响,并对影响Cu形态变化的相关因素进行了分析.研究结果显示:不同畜禽粪与化肥配施增加了土壤中Cu的总量,增加效果依次为:猪粪与化肥配施鸡粪与化肥配施牛粪与化肥配施.不同畜禽粪与化肥配施导致了土壤中各形态Cu含量增加,增幅依次为:猪粪与化肥配施鸡粪与化肥配施牛粪与化肥配施.此外,不同畜禽粪与化肥配施还导致了土壤中酸可提取态Cu和残渣态Cu比例增加,可还原态Cu和可氧化态Cu比例减少,变化幅度均呈现猪粪与化肥配施鸡粪与化肥配施牛粪与化肥配施的规律.由于酸可提取态Cu占全Cu比例较小(增加后比例仍不足2%),故其对Cu有效性的影响微乎其微,而残渣态Cu的增加,可还原态、可氧化态Cu的减少均表明:不同畜禽粪与化肥配施降低了土壤中Cu的有效性.对于影响Cu形态的相关因素分析,研究结果表明:土壤中各形态Cu与pH值间相关性不显著,但其与有机质含量间相关性极其显著.酸可提取态、残渣态Cu与有机质含量呈显著负相关,可还原态、可氧化态Cu与有机质含量呈显著正相关.此外,畜禽粪与化肥配施增加了土壤中各形态Cu与pH值间的相关性,但对其与有机质含量间关系影响不大.     

A review: long-term effects of agricultural systems on soil biochemical and microbial parameters

This paper provides a review of recent developments on assessing the effect of agricultural systems on long-term productivity of soils. Cultivation of soils, besides affecting soil chemistry and structure, reduces biological activity due to the reduction of macroaggregates which provides an important microhabitat for microbial activity. Indirect evidence suggests that soil amendments such as animal and green manures, and plant diversity (crop rotations) may be more important in maintaining soil microbial activity/diversity than conservation tillage in monocultural systems. There is increasing evidence that crop rotation promotes crop productivity by suppressing deleterious microorganisms that flourish under monoculture. Additions of inorganic fertilizers can increase soil biological activity because of an increased plant biomass production which upon incorporation stimulates soil biological activity. Conversely, limited evidence suggests that repeated applications of inorganic fertilizer nutrients can suppress production of certain soil enzymes that are involved in cycling of a given nutrient. The observed transitory decrease in crop productivity during conversion from chemical intensive input to alternative systems (greater reliance on biological resources) may be due to the initial diminished biological potentials of conventionally managed soils to efficiently cycle and mineralize organic nutrient sources. This review reaffirms the continuing need for the maintenance of existing long-term experimental sites and establishment of new studies in major agroecosystems throughout the world.     

长期施肥下浙江稻田不同颗粒组分有机碳的稳定特征

依托浙江水网地区稻田长期定位施肥试验(1996~2013年),利用固态13C核磁共振波谱技术,研究长期不同施肥措施下土壤各颗粒组分有机碳含量及其化学结构特征.结果表明,与不施肥对照(CK)相比,秸秆与化肥配施(NPKRS)、栏肥与化肥配施(NPKOM)、单施化肥(NPK)和单施栏肥(OM)处理均显著(P0.05)增加了砂粒(2~0.02 mm)、粉粒(0.02~0.002mm)和黏粒(0.002 mm)组分中有机碳含量;而单施秸秆(RS)处理仅显著增加砂粒组分有机碳含量.此外,与单施化肥处理相比,有机肥和化肥配施促进了新增有机碳在粉粒和黏粒组分的分配,更有利于新增有机碳的稳定.应用13C-NMR波谱技术进行结构表征,结果表明粉粒和黏粒组分有机碳的化学结构存在明显差异,粉粒组分烷氧碳、芳香碳的相对含量高于黏粒,而烷基碳、羰基碳的相对含量低于黏粒.长期有机肥与化肥配施下粉粒和黏粒烷基碳相对含量较单施有机肥处理分别降低9.1%~11.9%和13.7%~19.9%,烷氧碳的相对含量则分别增加2.9%~6.3%和13.4%~22.1%,表明有机肥与化肥配施处理降低了粉粒和黏粒组分有机碳的分解程度.长期单施化肥处理下粉粒和黏粒组分有机质的芳化度和疏水性低于单施有机肥处理和不施肥处理,有机质的矿化稳定性较低.长期有机肥与化肥配施,尤其是NPKOM处理,通过增加化学抗性化合物和碳水化合物的积累,并且减缓活性组分的分解提高粉粒和黏粒组分有机碳含量,是促进稻田土壤有机碳可持续积累的有效措施.     

Soil characteristics under cash crop farming in upland areas of Sarawak,Malaysia

This study discusses soil fertility under perennial cash crop farming (para rubber, Hevea brasiliensis; black pepper, Piper nigrum; oil palm, Elaeis guineensis) conducted by local farmers and an oil palm estate in an upland area of Sarawak, Malaysia, in comparison with the surrounding secondary forests. In the farmlands of the local farmers, rubber farming was conducted without fertilizer application, while 2–5 t ha^?1 of NPK compounds were applied annually on pepper farms. Soils under rubber farming were acidic with poor nutrient contents, resembling soils in secondary forests. In pepper farms, soils were less acidic and showed high nutrient contents, especially with respect to available P and exchangeable Ca. This trend became stronger with increasing farming duration. Fertilizers applied around pepper vines appeared to migrate and spread across the fields. Bulk density and hardness of surface soils were higher in pepper farms than in secondary forests, indicating soil compaction due to field works. In the oil palm estate, annual fertilizer application rates were moderate at 0.4–0.8 t ha^?1 of NPK compound fertilizers. However, the soil properties in the oil palm estate were similar to those of the small-scale pepper farms. Close to the bases of the palms where fertilizers usually are applied, the contents of exchangeable Ca and available P were high. Nutrient uptake by the dense root systems of the palms seemed to prevent excessive loss of nutrients through leaching. Loss of soil organic matter and deterioration of soil physical properties were brought about by terrace bench construction, but the soils seemed to recover to some extent over time. In conclusion, technologies such as intercropping and the appropriate allocation of different crops to specific locations as well as the proper selection and dosage of fertilizers should be developed and adopted to improve fertilizer efficiency and prevent water pollution due to fertilizer wash-off from farmlands.     

连续施用鸡粪对菜心产量和重金属含量的影响

由于养殖业普遍使用微量元素添加剂,导致禽畜粪中重金属残留过高现象广泛存在.根据养殖场鸡粪含氮量计算其用量（N 0～450 kg·hm^-2）,进行连续4茬菜心施用鸡粪田间实验,探讨对菜心产量及重金属含量的影响.结果表明,第1、3茬所有施用鸡粪处理菜心产量比单施无机肥处理降低,第2茬则提高,第4茬鸡粪与无机肥配施处理提高了菜心产量.不同茬别菜心产量差别较大,第2茬显著高于其它茬别.从不同处理4茬菜心重金属平均含量来看,施用鸡粪可提高As、Zn含量,降低Cr、Cd含量,对Pb含量无明显影响,配施鸡粪提高Cu含量.除第2茬因产量稀释作用影响外,不同茬别所有处理菜心As、Pb、Cr、Cu、Zn平均含量随施用茬数增加而提高,Cd平均含量则下降.建议在无公害或绿色食品生产中避免一次性大量施用或连续施用养殖场禽畜粪.     

生物炭和秸秆还田对紫色土旱坡地土壤团聚体与有机碳的影响

明确生物炭和秸秆还田对未利用的新垦紫色土旱坡地土壤团聚体和有机碳的影响,为三峡库区土壤改良提供科学依据.采用田间试验方法,分析不施肥（CK）、常规施肥（NPK）、优化施肥（GNPK）、化肥减量配施秸秆（RSD）和化肥减量配施生物炭（BC）处理对不同粒径土壤团聚体含量及其有机碳贡献率的影响.结果表明,施肥可提高土壤养分含量水平,尤以RSD和BC处理最为显著;各处理以<0.25 mm粒级团聚体为优势粒级,施肥能显著增加5~0.5 mm粒级团聚体含量,提高平均重量直径（MWD）、几何平均直径（GMD）和R_0.25（>0.25 mm团聚体含量）值,降低分形维数（D）和土壤结构体破坏率（PAD_0.25）值（P<0.05）;施肥能显著提高土壤有机碳含量,其中BC （6.73 g ·kg^-1）和RSD （5.45 g ·kg^-1）效果显著优于NPK （5.05 g ·kg^-1）和GNPK （3.63 g ·kg^-1）;<0.25 mm团聚体有机碳贡献率最高（34.92%~59.49%）,>5 mm团聚体有机碳贡献率最低（1.55%~6.01%）,BC处理显著提高了5~2 mm和2~1 mm粒级团聚体有机碳贡献率（P<0.05）,而NPK、RSD和GNPK在0.5~0.25 mm贡献率提升最为显著（P<0.05）;各施肥处理均能提高油菜和玉米产量,年际间差异较大,但处理间差异不显著;土壤团聚体稳定性和作物产量随土壤有机碳的增加呈上升趋势.生物炭和秸秆还田能促进土壤中,大、中团聚体形成,有效提高土壤团聚体稳定性,增加土壤有机碳含量,促进作物增产,是改良紫色土土壤结构、提升土壤质量的有效措施.     

Soil quality response to long-term nutrient and crop management on a semi-arid Inceptisol

The soil quality concept provides a tool to help quantify the combined biological, chemical and physical response of soil to crop management practices. Our objective was to quantify effects of 10 fertilizer and farm yard manure (FYM) treatments applied for 31 years to a rotation that included maize (Zea mays), pearl millet (Pennisetum americanum), wheat (Triticum aestivum) and cowpea (Vigna unguiculata) on an Inceptisol at the Indian Agricultural Research Institute in New Delhi, India. A soil quality index (SQI) based on six soil functions (i.e. the soil's ability to: accommodate water entry, facilitate water movement and storage, resist surface degradation, resist biochemical degradation, supply plant nutrients and sustain crop productivity) was derived for each treatment using bulk density, water retention, pH, electrical conductivity (EC), plant-available nutrients, soil organic matter (SOM), microbial biomass, soil enzymes and crop yield. SQI ratings ranged from 0.552 (unfertilized control) to 0.838 for the combined NPK fertilizer plus manure treatment. Comparisons among treatments indicated that SQI increases associated with the combined (NPK + manure) treatment were distributed as follows: N (7.1% increase), P (7.8%), K (14.4%), Zn (4.8%) and manure (15%). The control (−11.4%) and N alone (−5.1%) resulted in degradation compared to a reference soil (no fertilizer/manure, no crop), and NP alone or sub-optimal rates of NPK were on the verge of degradation. Hand weeding and sulphur application had no measurable effect on SQI. High K fixing capacity was a limiting factor for these soils, even when FYM was applied. The lower SQI rating associated with N or NP-only treatments suggests that two of the most common fertilizer management practices in India may not be sustainable. The SQI was calculated without the weighting factors too, which revealed that the weighting factors did not affect the relative ranks of individual treatments.     

菜地氨氧化微生物驱动的N2O和NO对有机无机肥配施的响应

氨氧化细菌（AOB）和氨氧化古菌（AOA）是驱动土壤氨氧化过程的"引擎".氨氧化过程在土壤氧化亚氮（N₂O）和一氧化氮（NO）排放过程中扮演着重要角色.有机无机肥配施是实现化肥零增长和作物稳产增产的重要途径，但在有机无机肥配施下，菜地土壤AOB和AOA对氨氧化过程的相对贡献仍不清楚.本研究采用选择性抑制的方法（辛炔和乙炔）区分有机肥添加近3年后（2016年10月—2019年5月）AOB和AOA在氨氧化过程中对碱性菜地土壤N₂O和NO产生的相对贡献.试验共设5种施肥处理：不施氮肥（CK）、单施尿素（N）、单施有机肥（M）、50%尿素+50%有机肥（M1N1）和80%尿素+20%有机肥（M1N4）.结果表明，有机无机肥配施（M1N1和M1N4）可显著增加土壤电导率、有机碳和全氮含量.培养试验发现，与N处理相比，M和M1N1处理分别使N₂O排放量增加100.7%和38.8%，NO排放量增加77.9%和42.8%，AOB基因丰度增加16.6%和10.2%，同时，AOB对N₂O排放的相对贡献增加6.5%.相反，M1N4处理分别使N₂O和NO排放量降低19.3%和4.8%，AOB基因丰度降低37.5%，同时，AOB对N₂O及NO排放的相对贡献分别降低7.8%和7.4%.相关分析表明，土壤N₂O和NO累积排放量与土壤AOB基因丰度呈显著正相关（p<0.05），与土壤AOA基因丰度无显著相关性.有机无机肥配施下AOB是氨氧化过程的主要驱动者，适当比例的有机无机肥配施（即M1N4）措施可在一定程度上减弱AOB对碱性菜地土壤N₂O及NO排放的相对贡献.     

Vulnerability of Indian mustard (<Emphasis Type="Italic">Brassica juncea</Emphasis> (L.) Czernj. Cosson) to climate variability and future adaptation strategies

A simulation study has been carried out using the InfoCrop mustard model to assess the impact of climate change and adaptation gains and to delineate the vulnerable regions for mustard (Brassica juncea (L.) Czernj. Cosson) production in India. On an all India basis, climate change is projected to reduce mustard grain yield by ～2 % in 2020 (2010–2039), ～7.9 % in 2050 (2040–2069) and ～15 % in 2080 (2070–2099) climate scenarios of MIROC3.2.HI (a global climate model) and Providing Regional Climates for Impact Studies (PRECIS, a regional climate model) models, if no adaptation is followed. However, spatiotemporal variations exist for the magnitude of impacts. Yield is projected to reduce in regions with current mean seasonal temperature regimes above 25/10 °C during crop growth. Adapting to climate change through a combination of improved input efficiency, additional fertilizers and adjusting the sowing time of current varieties can increase yield by ～17 %. With improved varieties, yield can be enhanced by ～25 % in 2020 climate scenario. But, projected benefits may reduce thereafter. Development of short-duration varieties and improved crop husbandry becomes essential for sustaining mustard yield in future climates. As climatically suitable period for mustard cultivation may reduce in future, short-duration (<130 days) cultivars with 63 % pod filling period will become more adaptable. There is a need to look beyond the suggested adaptation strategy to minimize the yield reduction in net vulnerable regions.     

秸秆源黑炭还田对水稻土生产力和固碳的影响

为揭示秸秆源黑炭连续还田对太湖平原稻麦轮作农田土壤生产力和固碳作用的影响,设黑炭施加量为0(CK)、4.5和9.0t/hm23个处理,通过2a 4个完整稻麦轮作季的盆栽试验,研究了稻秆来源黑炭每季还田下的稻麦作物产量.养分吸收状况及土壤理化性质的变化. 结果显示,土壤w(TOC)(TOC为总有机碳)和w(全N)随黑炭施加量的增加而增加. 每季黑炭施加量为9.0t/hm2时,土壤w(TOC)和w(全N)可分别提高46.7%~113.0%和9.3%~28.3%. 黑炭施入土壤后能够提高稻麦作物地上部分生物量,籽粒产量增加11.4%~60.5%,秸秆产量增加15.0%~56.8%. 黑炭处理下稻麦作物体内N、P、K、Mg和Ca的累积量显著提高,这一现象与每季结束后土壤w(全N)以及土壤有效元素含量〔w(有效P)、w(有效K)、w(有效Mg)和w(有效Ca)〕的增加相吻合. 黑炭施入可显著提高土壤pH和CEC(阳离子交换量),尤其是黑炭施加量为9.0t/hm2时,pH最高可达6.79,CEC最高达到12.7cmol/kg. 连续三季施入黑炭后,土壤容重比不施黑炭处理降低8.0%~12.2%. 试验结果表明,秸秆来源黑炭施入太湖平原稻麦农田可起到固碳增汇、增加土壤碳库容量的作用,也能改善土壤理化性质,提高土壤生产力.      

Effects of soil properties, mulch and NPK fertilizer on maize yields and nutrient budgets on ferralitic soils in southern Benin

Four on-farm experiments examined whether modest applications of fertilizers in combination with prunings from native agroforestry trees would be an alternative to maintain the fertility of ferralitic soils in Benin. An application of about 1.9 t ha⁻¹ dry matter of mulch of Senna siamea combined with 30 kg N ha⁻¹, 22 kg P ha⁻¹ and 25 kg K ha⁻¹ as compound fertilizer was compared with (1) 60 kg N ha⁻¹, 43 kg P ha⁻¹ and 50 kg K ha⁻¹ as compound fertilizer alone, (2) mulch of S. siamea alone (about 3.2 t ha⁻¹ dry matter), and (3) a control treatment. Criteria were soil properties, yields, nutrient uptakes, and nutrient budgets. Application of sole mulch had no significant effects (P>0.05) on maize yields, while combined application of prunings and NPK fertilizers or sole NPK increased yields significantly (P<0.05). The most limiting nutrient was P. The local maize cultivar was efficient in P uptake, but not in internal nutrient utilization efficiency; mulch increased significantly the internal P utilization efficiency (P<0.05). Soil properties were interpreted with the QUEFTS (quantitative evaluation of the fertility of tropical soils) computer program. The predicted and measured yields were almost the same for maize without NPK. The measured responses to NPK were much lower than the responses calculated by QUEFTS. The calculated nutrient budgets were split into balances for available nutrients and for those not immediately available (NIA). Nutrient budgets were negative for the control and sole mulch treatments, and positive for the NPK treatments. Mulch improved the balances of NIA nutrients. The present experiment could not prove that combining NPK with mulch is the best option for sustainable agriculture. It may be more economical to apply lower rates of fertilizer to local maize than those applied in the two NPK treatments in the present study.     

不同施肥方式下紫色土N2O与NOx的排放特征

利用紫色土长期施肥试验平台,采用静态箱-气相色谱法开展紫色土"冬小麦-夏玉米"轮作系统N_2O和NO_x排放的连续两周年(2014年11月~2016年9月)定位观测.研究了氮肥总量相同条件下的常规氮磷钾化肥(NPK)、猪厩肥(OM)、秸秆还田配施氮磷钾化肥(RSDNPK)、猪厩肥配施氮磷钾化肥(OMNPK)和氮磷钾化肥配合硝化抑制剂(DCDNPK)等施肥方式对N_2O和NO_x排放的影响,短期不施肥处理(CK)作为排放系数计算的对照.结果表明,所有施肥方式下紫色土N_2O排放峰均出现在施肥初期和大降雨过程期;NO_x排放过程与N_2O类似,排放峰出现在施肥初期,但强降雨期未出现明显排放峰.NPK、OM、RSDNPK、OMNPK和DCDNPK处理的N_2O年均累积排放量分别为:1.35、4.38、1.43、2.46、0.92 kg·hm~(-2),排放系数分别为:0.33%、1.41%、0.36%、0.73%、0.18%;相应处理的NO_x年均累积排放量分别为:0.11、0.38、0.10、0.27、0.04kg·hm~(-2),排放系数分别为:0.03%、0.13%、0.03%、0.09%、0.01%.较常规化肥,增加有机物料如施用猪厩肥和猪厩肥配施氮磷钾肥分别显著增加226%和83%的N_2O排放(P0.01),同时NO_x排放分别显著增加262%和157%(P0.01);常规化肥配合硝化抑制剂(DCDNPK)使用减少32%的N_2O排放和62%的NO_x排放(P0.01),秸秆还田配施氮磷钾肥对N_2O排放略有增加(P0.05),NO_x排放略有减少(P0.05).统计分析进一步表明,土壤无机氮含量是N_2O和NO_x二者排放的主控因子,而土壤孔隙充水率与温度分别作为N_2O与NO_x各自排放的主控因子之一.     

有机物料投入对喀斯特地区土壤磷素赋存形态与含phoD基因细菌群落的影响

针对喀斯特地区有机物料盈余、土壤养分贫瘠和易流失的特点,设置长期有机物料还田小区定位试验,试验包括6个处理：不施肥对照（CK）、无机肥（NPK）、无机肥+玉米秸秆（NPKS）、无机肥+农家肥（NPKM）、无机肥+滤泥（NPKL）和无机肥+甘蔗灰（NPKA）.研究不同有机物料投入对土壤磷赋存形态和磷活化功能微生物（含有机磷矿化基因细菌）群落结构的影响.通过3 a断续的观测,结果表明,土壤全磷（TP）、速效磷（Olsen-P）和二钙磷（Ca₂-P）含量呈逐年增加趋势,而氯化钙磷（CaCl₂-P）含量呈先降低再增加的趋势;与不施肥对照相比,有机物料投入尤其是滤泥配施能显著提高土壤全氮（TN）、TP、Olsen-P、CaCl₂-P和Ca₂-P含量,其次是甘蔗灰和农家肥配施处理;相关分析表明,CaCl₂-P、Ca₂-P和Olsen-P均与土壤交换性钙（Ca-ex）含量显著正相关;冗余分析（RDA）表明土壤TN、Ca-ex、有机碳（SOC）和土壤全钾（TK）含量是影响土壤磷组分的关键因子.高通量测序分析含有机磷矿化基因（含phoD基因）细菌群落结果表明,与不施肥对照相比,秸秆还田配施无机肥处理显著增加土壤含phoD基因细菌丰富度,但各处理间含phoD基因细菌群落结构无显著差异.RDA分析结果表明,土壤Ca-ex、TK、Olsen-P、pH和SOC是驱动含phoD基因细菌群落变化的关键因子.总体上看,无机肥配施滤泥、甘蔗灰和农家肥是广西喀斯特地区农田土壤较为合适的养分管理方式.研究可为喀斯特地区有机废弃资源利用与土壤磷素管理提供科学依据.     

化肥减量与有机物料添加对华北潮土微生物氮循环功能基因丰度和氮转化遗传潜力的影响

有机物料作为生态友好型的化肥替代品为农业生态系统带来了巨大的经济和环境效益.然而,在化肥减量的基础上添加有机物料会对土壤氮（N）循环产生何种影响依旧知之甚少.在此,设置了常规施肥（NPK）、化肥减量（NPKR）、化肥减量配施秸秆（NPKRS）、化肥减量配施有机肥（NPKRO）、化肥减量配施秸秆和有机肥（NPKROS）共5种施肥处理,采用实时定量PCR方法测定微生物N循环功能基因丰度,并估算微生物N转化遗传潜力.结果表明,与NPK处理相比,有机物料添加显著增加了参与有机N分解、N固定和N还原的异养微生物数量,而降低了执行氨氧化的自养微生物丰度.因此,异养微生物的比例增加,自养微生物的比例降低.施肥措施变化显著提高了微生物N存储和气态N排放潜力,降低了NO₃^-淋溶潜力,N₂ O还原潜力也有所提升.基于距离的冗余分析（db-RDA）表明,5种施肥处理间N循环功能基因丰度差异显著（PERMANOVA,P=0.002）,NH₄⁺是驱动这种变化的关键因子,施用有机肥有利于异养N循环功能微生物,并且同时加入秸秆增强了这种影响.Pearson相关分析表明N存储潜力和气态N排放潜力均与NH₄⁺含量显著负相关;NO₃^-淋溶潜力与SOC和TN含量显著负相关,而与NH₄⁺含量显著正相关.综上所述,在化肥减量基础上添加有机物料有利于增加农田土壤N库,降低土壤N淋溶损失,甚至在特定环境下可以降低N₂ O排放的环境风险.     

有机-无机肥配施对紫色土坡耕地氮素淋失的影响

通过坡地渗漏小区定位试验,研究总施氮量相同情况下,施肥方式对紫色土坡耕地氮素淋失的影响.结果表明,有机-无机肥配施会影响紫色土硝酸盐向下累积过程,显著降低紫色土坡耕地硝酸盐累积量.渗漏液中硝态氮含量在0.15～46.99mg·L-1之间,占总氮含量的66.4%～96.3%;总氮淋失量在(4.05±0.37)～(37.82±0.86)kg.hm-2之间,占当季施氮量的2.7%～25.2%.在维持总施氮量相同的条件下,与常规氮磷钾施肥相比,农家肥、秸秆与化肥配合施用的渗漏液总氮含量分别降低了71.0%、61.4%,总氮淋失量分别降低了48.1%、31.6%.这表明有机-无机肥配施能显著降低紫色土坡耕地氮素淋失量,对有效控制紫色土区浅层地下水硝酸盐污染具有重要作用.     

有机无机配施下西北旱区麦田土壤N2O的排放特征及微生物特性

有机无机配施可为作物提供长效持续的营养物质来源,研究旱地农田有机无机配施带来的环境效应和土壤酶活性及微生物特性,对减少化肥面源污染,改善生态环境有重要意义.本试验以3个梯度氮水平(NO、N1、N2):0、150、300 kg·hm-2为主处理,单施化肥和有机无机配施(+M)为副处理,有机肥施用量为30 t·hm-2;测定了小麦生长季的温室气体N2O排放通量和土壤酶活性,硝态氮及铵态氮含量和土壤物理性质.结果表明,土壤N2O排放通量最高的为N2+M处理,排放通量达到0.190 4 mg·(m2·h)-1,N2+M处理较NO累计排放量提高了 255％;N2和N2+M处理N2O的排放通量和增温潜势高于N1和N1+M处理,而产量低于N1和N1+M处理;微生物量碳氮以N2+M处理分蘖期最多,分别为346.31 mg·kg-1和33.36 mg·kg-1;N2+M处理的土壤酶活性较高,其次是N2处理,NO和NO+M处理土壤酶活性较低;通径分析表明,铵态氮(NH4+-N)、土壤磷酸酶(AKP)和微生物量氮(MBN)对N2O排放通量的直接影响较大,其他间接影响较小可不予以考虑.研究旱地麦田有机无机配施的环境效益,与多方面因素相关,合理地配施有机肥可以平衡产量与土壤环境的综合效益.     

不同施肥措施对水稻土壤微生物镉抗性的影响

镉（Cd）是最常见的土壤重金属污染物之一,对植物和人体具有毒害作用,研究不同施肥条件下的土壤微生物Cd抗性水平,可以为有机肥改良重金属污染提供一定的理论依据.为了探讨施无机肥和有机肥对于微生物Cd抗性水平的影响,在中国江苏常州、江西上高和福建福州水稻种植区采集了施有机肥（猪粪）和无机肥的土壤样品及猪粪样品,利用功能基因芯片（GeoChip 5.0）技术,研究了土壤微生物Cd抗性功能基因的响应及影响Cd抗性功能微生物群落互作的因素.结果表明,施有机肥土壤中有效态Cd含量[（1.08±0.70）mg·kg^-1]显著低于施无机肥土壤[（3.75±1.22）mg·kg^-1]（P<0.05）.土壤及猪粪样品中共检测到639个Cd抗性功能基因,施有机肥土壤中微生物Cd抗性基因丰度高于施无机肥土壤;有效态Cd含量、含水率、pH和铵态氮含量是影响Cd抗性微生物分布的重要环境因素.对Cd抗性微生物分子生态网络分析表明,施无机肥条件下,pH、含水率和有效态Cd含量是影响功能微生物潜在互作关系的主要因素;施有机肥条件下,主要影响因素是全钾和含水率.相比较无机肥,施用有机肥提高了土壤中微生物的Cd抗性水平及耐Cd微生物分子生态网络中的正相互作用.