新农药哌虫啶在三种典型土壤中的吸附与淋溶研究

采用实验室模拟方法研究了烟碱类新农药哌虫啶在土壤生态系统中的降解动态及其对土壤微生物的影响.结果表明,哌虫啶的降解过程符合一级反应动力学方程,浓度为1、5和10 mg kg-1的哌虫啶在土壤中的降解半衰期为11.28 ~7.30 d.哌虫啶对土壤微生物的毒性作用与浓度正相关.施药后哌虫啶对土壤中细菌和放线菌的数量具有激活作用,3 d后,哌虫啶开始抑制土壤中细菌和放线菌的数量,施药后5 d内,哌虫啶促进了真菌的生长繁殖,10 d后表现为抑制真菌数量,有先促进后抑制细菌、真菌和放线菌的趋势.哌虫啶施入土壤后对土壤酶活性具有一定的影响,土壤碱性磷酸酶较酸性磷酸酶更敏感,哌虫啶具有抑制酸性磷酸酶和碱性磷酸酶的作用,这种抑制作用一直延续至试验的第20天;施药处理组对脲酶活性均有显著的抑制作用,并且浓度越大,抑制作用越强烈;哌虫啶对土壤脱氢酶具有显著的激活作用,哌虫啶对土壤过氧化氢酶影响作用较弱.总之哌虫啶在土壤中降解半衰期较短,属于易降解农药,10 mg kg-1浓度的哌虫啶对土壤微生物具有一定的毒性作用.     

哌虫啶在土壤中的降解动态及对土壤微生物的影响

采用实验室模拟方法研究了烟碱类新农药哌虫啶在土壤生态系统中的降解动态及其对土壤微生物的影响。结果表明,哌虫啶的降解过程符合一级反应动力学方程,浓度为1、5和10 mg kg-1的哌虫啶在土壤中的降解半衰期为11.28~7.30 d。哌虫啶对土壤微生物的毒性作用与浓度正相关。施药后哌虫啶对土壤中细菌和放线菌的数量具有激活作用,3 d后,哌虫啶开始抑制土壤中细菌和放线菌的数量,施药后5 d内,哌虫啶促进了真菌的生长繁殖,10 d后表现为抑制真菌数量,有先促进后抑制细菌、真菌和放线菌的趋势。哌虫啶施入土壤后对土壤酶活性具有一定的影响,土壤碱性磷酸酶较酸性磷酸酶更敏感,哌虫啶具有抑制酸性磷酸酶和碱性磷酸酶的作用,这种抑制作用一直延续至试验的第20天;施药处理组对脲酶活性均有显著的抑制作用,并且浓度越大,抑制作用越强烈;哌虫啶对土壤脱氢酶具有显著的激活作用,哌虫啶对土壤过氧化氢酶影响作用较弱。总之哌虫啶在土壤中降解半衰期较短,属于易降解农药,10 mg kg-1浓度的哌虫啶对土壤微生物具有一定的毒性作用。     

氯嘧磺隆对土壤微生物数量,酶活性及呼吸强度的影响

氯嘧磺隆是一类高效广谱除草剂,研究其对土壤微生物的影响对其合理使用具有重要意义。通过室内瓶培养实验研究了不同浓度氯嘧磺隆对土壤呼吸强度、土壤微生物数量和土壤酶活性的影响。结果表明:氯嘧磺隆施入土壤2周后,可明显提高土壤呼吸强度,且浓度越大,提高效果越明显;氯嘧磺隆施入土壤1周后,不同浓度氯嘧磺隆处理均可提高土壤细菌和放线菌数量,45 d时表现出抑制作用,60 d可恢复到对照水平;氯嘧磺隆对土壤真菌数量表现为抑制作用,而后恢复到对照水平,45 d时田间施用量可抑制土壤真菌的增殖,但60 d可恢复到对照水平。土壤培养前1周,氯嘧磺对土壤过氧化氢酶、土壤转化酶、土壤脲酶活性均表现出不同程度的抑制作用,且浓度越大抑制作用越明显。之后三种酶表现出一定的激活作用,培养60 d可恢复到对照水平。以上试验结果可为合理施用氯嘧磺隆提供理论依据。     

长期施肥对黑土酶活性和微生物呼吸的影响

以农业部哈尔滨黑土生态环境重点野外科学观测试验站28年长期定位试验为平台,研究了长期施用不同肥料对黑土酶活性及微生物呼吸强度的影响。结果表明,长期不同施肥处理后黑土过氧化氢酶、转化酶和脲酶的活性均产生较大的差异,有机无机肥料配合施用处理的土壤中脲酶和转化酶活性显著地高于单施化肥、有机肥和不施肥处理,施肥对土壤过氧化氢酶具有一定的抑制作用。相同施肥条件下0~20 cm土层土壤过氧化氢酶、转化酶和脲酶的活性均高于20~40 cm土层酶活性。此外,施肥对土壤真菌、细菌的呼吸都有一定的抑制作用。     

不同啶虫脒剂型对烟粉虱的毒力差异及原因分析

为探讨农药剂型对烟粉虱的毒力差异,分别以甘蓝和黄瓜叶片作为生物测定载体,比较了啶虫脒乳油(EC)、微乳剂(ME)、可溶性液剂(SL)、可溶性粉剂(SP)及可湿性粉剂(WP)等5种剂型对烟粉虱成虫的毒力,并通过对植物叶片临界表面张力、啶虫脒药液表面张力、动态接触角及叶片持液量的测定,分析了不同啶虫脒剂型间毒力差异形成的原因。结果表明:以甘蓝叶片为生物测定载体,不同啶虫脒剂型间对烟粉虱的毒力差异明显;以黄瓜叶片为生物测定载体,不同剂型间毒力差异不明显。啶虫脒SL、SP、WP在两种生物测定载体间的毒力差异大于EC和ME。甘蓝和黄瓜叶片的临界表面张力值分别为30.73 mN.m 1和57.91~63.30 mN.m 1。啶虫脒有效成分浓度大于7.81 mg.L 1时,啶虫脒EC和ME溶液表面张力即小于甘蓝和黄瓜叶片的临界表面张力;啶虫脒有效成分浓度大于500 mg.L 1时,啶虫脒SL、SP、WP溶液的表面张力才小于甘蓝叶片的临界表面张力。啶虫脒ME溶液液滴接触两种植物叶片的瞬间(0 s),液滴与叶片间的接触角就明显小于90°。甘蓝叶片对低浓度的啶虫脒ME和EC溶液的持液量高于其他3种剂型,黄瓜叶片对啶虫脒各剂型溶液的持液量无明显差异。植物叶片表面性质和不同剂型溶液表面张力的差异是导致剂型间产生毒力变化的重要原因。     

沼肥对保护地土壤酶及其呼吸强度的影响

以等有机质含量的猪粪、沼渣为基肥,追肥(化肥与沼液)以等N、等P、等K进行施用,采用二裂式区组设计的方法研究了沼肥、猪粪、化肥等不同施肥组合对保护地土壤酶活性及其呼吸强度的影响。结果表明,未施任何肥料的对照处理,其土壤磷酸酶、过氧化氢酶活性和土壤呼吸强度最弱。沼渣与沼液配合施用较沼渣与化肥配合施用有利于提高土壤磷酸酶的活性,而施用猪粪或沼渣、施用沼液或化肥对土壤磷酸酶活性的影响差异较小;施肥对土壤过氧化氢酶活性影响较小;施有机肥或有机肥和化肥配施提高了土壤呼吸强度。施用化肥、沼渣分别比施用沼液、猪粪有利于提高土壤呼吸强度。猪粪、沼渣与化肥配合施用分别比与沼液配合施用的土壤呼吸强度高。     

苯噻草胺对水田土壤呼吸强度和酶活性的影响

研究了除草剂苯噻草胺对水稻田土壤呼吸强度和酶活性的影响。表明苯噻草胺使用后初期刺激土壤呼吸作用但随后产生轻微抑制 ,能激活脱氢酶的活性 ,但抑制过氧化氢酶活性随后产生一定的刺激作用。苯噻草胺强烈抑制脲酶活性 ,轻微抑制蛋白酶活性 ,但对磷酸酶具有刺激作用 ,而且随苯噻草胺施用浓度的增加而刺激作用增强。苯噻草胺比上一代除草剂丁草胺所造成的对水稻田土壤呼吸强度和酶活性的影响小     

几种杀虫剂胁迫对黄瓜幼苗抗氧化酶活性和相关生理指标的影响

明确杀虫剂多次施用后对黄瓜幼苗抗氧化酶活性和相关生理指标的影响,对指导黄瓜(Cucumis sativus L.)合理用药具有重要作用。本研究以室内盆栽的黄瓜幼苗为试材,研究了几种常用化学杀虫剂吡虫啉、啶虫脒、溴氰菊酯及生物杀虫剂玫烟色棒束孢对黄瓜幼苗抗氧化酶活性(SOD、POD、CAT)及丙二醛MDA、脯氨酸和蛋白质含量的影响。结果表明:不同杀虫剂对黄瓜幼苗抗氧化酶活性及相关生理指标的影响不同。当供试3种化学杀虫剂胁迫黄瓜幼苗2 d时,其体内SOD、POD、CAT活性与对照无显著差异;当胁迫时间延长到4 d时,溴氰菊酯和啶虫脒处理的黄瓜幼苗体内3种抗氧化酶活均明显升高且与对照差异显著;当胁迫时间延长到6 d时,3种化学杀虫剂均造成黄瓜幼苗体内SOD、POD活性升高且与对照差异显著,其中溴氰菊酯影响较吡虫啉和啶虫咪严重;胁迫8~10 d后,各处理黄瓜幼苗体内3种抗氧化酶活性均开始下降或恢复正常。同时,3种化学杀虫剂胁迫黄瓜幼苗4~8 d时,MDA和脯氨酸含量升高并与对照差异显著;胁迫10 d时,啶虫咪和溴氰菊酯胁迫的黄瓜幼苗MDA含量仍显著高于对照,而脯氨酸含量开始下降并趋于正常。此外,3种化学杀虫剂胁迫黄瓜幼苗2~8 d时均造成其蛋白质含量的降低,而生物杀虫剂玫烟色棒束孢胁迫对黄瓜幼苗SOD、POD、CAT活性及MDA、脯氨酸和蛋白质含量均没有显著影响。可见生物杀虫剂玫烟色棒束孢较3种化学杀虫剂对黄瓜幼苗安全,黄瓜幼苗受化学杀虫剂胁迫后需要一个过程才能修复杀虫剂对其自身造成的伤害。     

降解多菌灵和啶虫脒残留的复合菌剂研发及初步应用

针对菜田土壤中多菌灵和啶虫脒的残留问题，以多菌灵降解菌株Rhodococcusqingshengiidjl-6和啶虫脒降解菌株Pigmentiphaga D-2作为材料，进行降解菌剂的复配，研究了使用复合降解菌剂对复合农药残留土壤的修复效果及微生态效应。研究结果表明：(1)复配降解菌株djl-6与D-2的最适体积比为5∶3，复合降解菌剂在3 d内对无机盐培养基中50μg/ml的多菌灵降解率为87.14%，对50μg/ml的啶虫脒降解率为96.10%。(2)初始接种量为7%时，复合降解菌剂可在6 d内将复合农药污染土壤中5 mg/kg多菌灵降解74.40%，将5 mg/kg啶虫脒降解95.87%。土壤含水率为25%时，复合降解菌剂对复合农药污染土壤中5 mg/kg多菌灵的降解率为80.80%，对5 mg/kg啶虫脒的降解率为97.87%。(3)复合农药污染土壤中10 mg/kg多菌灵和10 mg/kg啶虫脒即可对小青菜的生长产生明显的药害，小青菜生长24d时根长仅为空白对照的66.56%、茎叶长为58.35%、鲜重为45.13%。在7%的接种量条件下，复合降解菌剂可解除药害，使小青菜的生...     

阿维菌素对蔬菜地土壤微生物及土壤酶的生态毒理效应

研究了阿维菌素对蔬菜地土壤微生物和土壤酶的生态毒理效应.实验结果表明,阿维菌素在低浓度时（1～10 mg kg^-1）对土壤脲酶活性和脱氢酶活性有轻微的激活作用,而对土壤微生物呼吸强度没有明显的影响;在高浓度时（50～100 mg kg^-1）对土壤微生物呼吸强度、脲酶活性以及脱氢酶活性均有明显抑制作用;不同浓度阿维菌素在不同程度上均会造成土壤微生物生物量的减少和过氧化氢酶活性被强烈激活.     

Influence of acetamiprid on soil enzymatic activities and respiration

The effect of a new pesticide, acetamiprid, applied at normal field concentration (0.5 mg kg⁻¹ dried soil) and at high concentration (5 and 50 mg kg⁻¹ dried soil), on soil enzyme activities and soil respiration in upland soil was studied. The results showed that acetamiprid had a strong negative influence on soil respiration and phosphatase activity, and the enzyme activities in soil treated with 5 and 50 mg kg⁻¹ dry soil were significantly (P < 0.05) lower than the CK over the course of incubation. The 7-, 14-, and 35-day EC10 for phosphatase were 11, 15, and 11 mg kg⁻¹ dry soil, respectively. The 21-day EC10 and EC50 for soil respiration was 0.005 and 83 mg kg⁻¹ dry soil. The activity of dehydrogenase was enhanced after acetamiprid application for 2 weeks and the enzyme activities in samples treated with 0.5, 5 and 50 mg kg⁻¹ dry soil was about 2.5-, 1.5- and 2-fold to that of the control on sample day 28. Variance of urease and catalase had no distinct relationship with the application concentration. The activity of proteinase was not significantly affected within the first 2 weeks but inhibited from the fourth week after acetamiprid application and was only 0.45-fold to that of the control on sample day 28. Overall, acetamiprid at normal field dose would not pose a toxicological threat to soil enzymes, but a certain potential threat to soil respiration.     

Prolonged drought changes the bacterial growth response to rewetting

Rewetting a dry soil can result in two response patterns of bacterial growth and respiration. In type 1, bacterial growth starts to increase linearly immediately upon rewetting and respiration rates are highest immediately upon rewetting. In type 2, bacterial growth starts to increase exponentially after a lag period with a secondary increase in respiration occurring at the start of the exponential increase in growth. We previously observed that the type 1 response occurred after rewetting 4-day dried soil and type 2 for 1-year dried soil. Here we studied in detail how the duration of drought related to the two types of responses of bacterial growth and respiration to rewetting. Soil was air dried for different time periods from 4 days up to 48 weeks. Upon rewetting, bacterial growth and respiration was measured repeatedly at 17 °C during one week. Drought periods of ≤2 weeks resulted in a type 1 response whereas drought periods of ≥4 weeks resulted in a type 2 response. The lag period increased with drought duration and reached a maximum of ca. 18 h. The bacterial growth response was also affected by incubation of moist soil before drying–rewetting. The lag period increased with duration of moist soil incubation before the 4-day drying–rewetting event and reached also a maximum of ca. 18 h. The exponential growth increase in the type 2 response coincided with a secondary increase in respiration, which increased in magnitude with increasing drought duration. Cumulative respiration increased with drought duration and was ca. 4 times higher after 48 weeks of drought compared to 4 days. Thus, prolonged drought affected the response type of bacterial growth and respiration to rewetting, and also increased lag period, the magnitude of the secondary increase in respiration and total C release. The effect of drought was, however, modified by the lenght of the incubation period of moist soil before drought, suggesting that soil conditions before a drying–rewetting event need consideration when evaluating microbial responses.     

碘甲磺隆钠盐对土壤中过氧化氢酶活性及呼吸作用的影响

通过模拟实验研究了除草剂碘甲磺隆钠盐对土壤中过氧化氢酶活性和土壤呼吸作用的影响。结果表明,在施用量超过田间推荐用量7倍的浓度范围内,碘甲磺隆钠盐对土壤中过氧化氢酶活性的影响不明显;当其浓度为1mg/kg时,在不同培养时间下,碘甲磺隆钠盐施用后对土壤过氧化氢酶活性的影响呈现出轻微的抑制-激活-恢复的过程;在不同土壤类型中,碘甲磺隆钠盐对土壤过氧化氢酶的抑制性随土壤有机质的增加、pH值的降低而加强;碘甲磺隆钠盐对土壤呼吸作用有一定的影响,浓度愈大,土壤呼吸强度初期抑制愈强,随着时间的推移,逐步由抑制转为一定程度的刺激作用,到12天后施药土壤与对照组土壤的呼吸强度基本上趋于一致。实验结果表明,碘甲磺隆钠盐对土壤微生物影响较小,属于低毒或无实际危害的农药。     

皆伐对杉木人工林土壤呼吸的影响

应用密闭室碱吸收法对杉木人工林皆伐后的土壤呼吸及各分室呼吸进行为期1年定位研究,结果表明,杉木林皆伐后前4个月土壤呼吸显著高于对照(未伐地)的,皆伐6个月后则显著低于对照的,但伐后1年内的平均土壤呼吸则与对照的无显著差异。皆伐地枯枝落叶层呼吸和矿质土壤呼吸分别在伐后的5个月和6个月内显著高于对照的,但此后则与对照的无显著差异。皆伐地根系呼吸除在伐后当月显著高于对照的外,第3个月迅速降低至消失。皆伐地土壤呼吸、枯枝落叶层呼吸和矿质土壤呼吸最大值出现时间均较对照的有所提前。伐后1年内皆伐地枯枝落叶层呼吸、矿质土壤呼吸和根系呼吸占土壤呼吸的比例分别为34·5%、63·9%和1·6%,而对照的则分别为23·4%、50·1%和26·5%。双因素关系模型拟合结果表明,土壤温度和土壤湿度共同解释皆伐和对照土壤呼吸速率变化的54%和90%。皆伐地土壤呼吸及各分室呼吸对土壤温度的敏感性低于对照的,但对土壤湿度的敏感性则高于对照的。皆伐地土壤呼吸、矿质土壤呼吸和枯枝落叶层呼吸的Q10分别为1·42、1·53和1·34,而对照的土壤呼吸、矿质土壤呼吸、枯枝落叶层呼吸和根系呼吸的Q10则分别为2·42、1·81、2·40和4·41。     

Effects of traditional and biodynamic farmyard manure amendment on yields,soil chemical,biochemical and biological properties in a long-term field experiment

We studied the effects of applications of traditionally composted farmyard manure (FYM) and two types of biodynamically composted FYM over 9 years on soil chemical properties, microbial biomass and respiration, dehydrogenase and saccharase activities, decomposition rates and root production under grass-clover, activity and biomass of earthworms under wheat, and yields in a grass-clover, potatoes, winter wheat, field beans, spring wheat, winter rye crop rotation. The experiment was conducted near Bonn, on a Fluvisol using a randomised complete block design (n=6). Our results showed that plots which received either prepared or non-prepared FYM (30 Mg ha^–1 year^–1) had significantly increased soil pH, P and K concentrations, microbial biomass, dehydrogenase activity, decomposition (cotton strips), earthworm cast production and altered earthworm community composition than plots without FYM application. Application of FYM did not affect the soil C/N ratio, root length density, saccharase activity, microbial basal respiration, metabolic quotient and crop yields. The biodynamic preparation of FYM with fermented residues of six plant species (6 g Mg^–1 FYM) significantly decreased soil microbial basal respiration and metabolic quotient compared to non-prepared FYM or FYM prepared with only Achillea. The biodynamic preparation did not affect soil microbial biomass, dehydrogenase activity and decomposition during 62 days. However, after 100 days, decomposition was significantly faster in plots which received completely prepared FYM than in plots which received no FYM, FYM without preparations or FYM with the Achillea preparation. Furthermore, the application of completely prepared FYM led to significantly higher biomass and abundance of endogeic or anecic earthworms than in plots where non-prepared FYM was applied.     

长期定量施肥对黑土呼吸的影响

通过盆栽模拟试验,用静态箱法采样,气相色谱测定样品CO2浓度,研究大豆出苗到开花期长期定量施肥土壤CO2排放速率的变化规律。结果表明,长期定量施肥大豆生长对土壤呼吸影响有明显的规律性,NPK+OM>NPK>NP>NK>CK;长期定量施肥对裸土呼吸速率影响较小,NPK+OM呼吸速率较大为53.8mgCm-2h-1,NP次之为50.7mgCm-2h-1,其它施肥影响不大,气温对裸土呼吸影响较大,而对种植大豆的土壤呼吸前期(出苗后9天)影响较大,生长后期(出苗9天以后)影响较小。裸土呼吸速率变化与气温变化趋势相似,种植大豆促进土壤呼吸增大。如果忽略大豆生长对土壤有机质分解的激发效应,大豆根际呼吸占总土壤呼吸的23%～56%。     

乙草胺对土壤微生物数量和酶活性的影响

采用室内瓶培养试验,研究了乙草胺施用对土壤微生物数量及酶活性的影响。结果表明:乙草胺施用初期对土壤细菌和放线菌数量有明显刺激作用,但施用30d时高施用量处理(30mg·kg-1)呈明显抑制作用,之后各处理放线菌恢复到对照水平,而对细菌的抑制作用一直持续到60d;乙草胺对土壤真菌数量呈"抑制-恢复-刺激"的作用趋势。乙草胺施用初期对土壤脱氢酶产生一定刺激作用,45d后高施用量处理呈明显抑制作用,一直持续到60d;土壤过氧化氢酶对乙草胺不敏感,而转化酶和脲酶对乙草胺施入初期较敏感;低施用量处理对转化酶有抑制作用,高施用量处理对转化酶有刺激作用,各处理对脲酶都有抑制作用。     

风化煤玉米秸配施熟化土壤的生物学效应研究

以黄土母质生土为材料,通过盆钵试验,研究了腐殖酸类物质风化煤与玉米秸配施在土壤熟化培肥过程中对土壤微生物量及生物活性的综合影响。结果表明,施用风化煤,特别是与玉米秸配施,对土壤生物量C和土壤呼吸强度、纤维分解强度等表征土壤生物学性状的指标均有不同程度的促进作用,互作激发效应较明显,有较好的实际应用价值。经统计优选,在本试验条件下,对土壤微生物及其活性具有较佳效应的方案为风化煤施用量24150～32400kg/hm2,同时配施玉米秸35550～41550kg/hm2,尿素1080～1290kg/hm2。