双氰胺与尿素共包被对NH4+硝化及NO3-淋溶的影响

通过研究硝化抑制剂双氰铵(DCD)和尿素共同包被后(此肥料简称CUD)二者在土壤中的溶出行为及硝化作用和NO3-淋溶的变化情况,探讨此类肥料减缓硝化作用和NO3-淋溶的机理,为此类肥料的开发和农业应用提供一定的理论依据.采用室内摸拟培养的方法开展:(1)CUD中尿素和DCD在土壤中的溶出行为.(2)尿素、:DCD涂层尿素、包膜型尿素、CUD中N的硝化速率;采用土柱淋溶模拟方法研究尿素、DCD涂层尿素、包膜型尿素、CUD在土壤中转化后的NO3-的淋溶.CUD中尿素和DCD的溶出高峰期不同步,但包膜可减缓DCD的淋失.CUD中DCD具有良好的硝化抑制效果,培养后期土壤中具有较高的NH4+-N含量,改变培养期间NR4+-N和NO3--N的供应比率.相对于其它处理,施用CUD土壤较晚出现NO3-的大量淋失,且总体淋失量小于其它处理.尿素和DCD共包被后,DCD能更有效发挥作用,使土壤中肥料N的硝化作用减弱,相应减少NO3-淋失,此种肥料施用有利于提高N的利用效率和减缓环境污染.     

不同耕作方式下土壤氮素矿化和硝化特征研究

为探讨长期定位试验田不同耕作方式下土壤氮素矿化和硝化特征,采用室内恒温通气培养法,保持土壤田间持水量在65％条件下,测定不同耕作方式下表层土壤（0～20cm）在不同温度下的NH4^＋和NO3^-含量,并计算氮素矿化量和硝化率。结果表明,随着温度的升高,土壤氮素矿化和硝化作用均增强,几种耕作方式下土壤氮素矿化和硝化作用均表现为35℃〉30℃〉25℃。保护性耕作与水旱轮作和常规平作之间的矿化量存在显著的差异,垄作免耕〉厢作免耕〉水旱轮作〉常规平作。土壤氮素最终硝化率达到了60％～80％,表现为常规平作最高,水旱轮作次之,厢作免耕最低。矿化率与土壤有机质、碱解氮和速效磷对数均成显著正相关,相关系数分别为r^2=0．99,r^2=0．97,r^2=0．96,pH是影响硝化作用的重要因素,硝化率与土壤pH成显著正相关,r^2=0．991。     

除草剂对尿素氮在土壤中转化的影响

在实验室培养条件下研究除草剂草甘膦和丁草胺对尿素氮在菜地土壤中转化的影响。实验设对照、尿素、尿素＋草甘膦和尿素＋丁草胺4个处理,尿素氮用量为200 mg.kg-1（以干土计）,除草剂用量为w（有效成分）=10 mg.kg-1（以干土计）。结果表明,草甘膦和丁草胺对尿素氨化作用不产生抑制作用,甚至出现促进效果。2种除草剂在培养的前2 d均显著抑制硝化作用,但到第4天时显著促进硝化作用（P〈0.05）。草甘膦对反硝化作用表现显著的抑制作用（P〈0.05）,而丁草胺对反硝化作用有极显著的促进作用（P〈0.01）;丁草胺＋尿素、尿素、草甘膦＋尿素处理的反硝化损失量分别占施氮量的16.90%、6.34%和3.66%。可见,除草剂对土壤氮素转化有一定影响,但不同除草剂对氮素各个转化途径的影响有明显差异,不同除草剂品种间影响程度也不同。     

基于BaPS技术的高山草甸土硝化和反硝化季节变化

应用气压分离(BaPS)技术测定了川西北高山草甸土硝化和反硝化季节动态变化.结果表明:植物生长季节内,土壤总硝化、反硝化和N2O释放率的变化趋势一致,即从6月份(硝化率:N 8.40 mg kg-1 d-1;反硝化率:N 0.48 mg kg-1 d-1;N2O释放率:N 84.48 靏 kg-1 d-1)开始增加,7月份(N 19.36 mg kg-1 d-1;N 0.60 mg kg-1 d-1;N 100.13 靏 kg-1 d-1)达到最大值,然后开始下降,到9月份(N 1.81 mg kg-1 d-1;N 0.24 mg kg-1 d-1;N 40.09 靏 kg-1 d-1)降为最小值.氮素物质基础(NO3--N和NH4 -N)不是影响该高山草甸土硝化和反硝化的主要因素,土壤温度和湿度是该高山草甸土硝化、反硝化作用的主要影响因子.     

大气CO2浓度增高对农田土壤硝化活性的影响

利用中国唯一的FACE(Free-Air Carbon dioxide Enrichment,开放式空气CO2浓度增高)平台,研究大气CO2浓度增高对农田土壤硝化活性的影响.位于无锡的中国稻麦轮作农田生态系统FACE试验平台于2001年6月开始运行,设有FACE与Ambient(普通空气对照)2个处理,FACE区CO2浓度比Ambient区高200 μmol·mol-1,每个处理含低氮与常氮2个氮肥水平.在轮作水稻和小麦各3季之后,发现大气CO2浓度增高下,常氮水平上土壤的NO3--N质量分数降低,NH4+-N质量分数增高;而低氮水平上土壤的NO3--N质量分数增高,NH4+-N质量分数没有显著差异.然后分别在土壤样品中加入NH4+-N,好气培养42 d后通过测定土壤中的NO3--N、NO2--N总质量分数来研究土壤的硝化活性.结果显示,不管在CO2浓度增高下还是对照条件下,增加氮肥施用量均增强了土壤的硝化活性;且与对照相比,大气CO2浓度增高在常氮水平上降低了土壤的硝化活性,在低氮水平上却增强了土壤的硝化活性,说明大气CO2浓度增高对农田土壤硝化活性的影响与N肥供应水平有关.     

太湖不同湖区无机氮转化潜力

采集太湖梅梁湾和东太湖的水样和积物,在实验室内模拟研究不同湖区水体中溶解性无机氮(DIN)短期内的转化潜力.研究结果表明,太湖藻型湖区(梅梁湾)和草型湖区(东太湖)水体中存在着强烈的硝化作用,NH 4-N和NO3-N含量之间表现出显著的负相关关系(P＜0.05或P＜0.01),NH 4-N质量浓度下降速率为0.08～0.19 mg·L-1·d-1.在同样的试验条件下,藻型湖区硝化速率高于草型湖区.NH 4-N初始浓度越高则硝化速率也越高,不添加外源氮时硝化速率随着时间的推移而逐渐降低.藻型湖区的反硝化作用强于草型湖区.室内模拟试验20 d后,沉积物中TN含量平均下降了3.7%,东太湖水样中平均下降26.7%,梅梁湾平均下降42.2%.湖泊沉积物是进行反硝化作用的重要场所.短期内DIN的转化潜力反映了不同湖区氮素转化速率,也反映了不同生态类型水体对湖泊氮素转化的影响.     

农田土壤硝化-反硝化作用与N2O的排放

在北京潮土上研究了冬小麦夏玉米轮作体系下土壤硝化反硝化作用以及N2O排放情况.结果表明,小麦生育期土壤温度及含水量较低,无论是反硝化损失氮量还是土壤的N2O生成排放量均不高.土壤的N2O生成排放量与反硝化氮量相当或低于反硝化氮量.玉米生育期土壤温度升高以及孔隙含水量有较大的改善,反硝化损失氮量、N2O生成排放量有明显上升.通常情况下土壤反硝化损失氮量与N2O排放氮量基本处于同一水平.在玉米十叶期追肥后的较短时间内,N2O总排放量明显高于反硝化损失氮量,说明至少在这一阶段中,硝化作用在北方旱地土壤N2O的排放中发挥了主要作用.在评价北方旱地农田土壤氮素硝化反硝化损失中,硝化作用的氮素损失是不可忽视的重要方面.     

施用氮肥对不同肥力红壤性水稻土硝化作用的影响

通过室内培养试验,研究了施用尿素、硫铵条件下不同肥力红壤性水稻土的硝化作用变化特征,以明确土壤肥力和施用氮肥对红壤性水稻土硝化作用的影响.结果表明,不施氮条件下,不间肥力红壤性水稻土硝化作用表现为高肥力土壤<低肥力土壤.施用尿素条件下红壤性水稻土硝化作用显著增强,120和360 mg·kg-1施氮量下,高肥力土壤平均硝化速率分别比不施氮对照升高了75.8%和357.1%,而低肥力土壤则分别升高了52.0%和146.9%,硝化作用强度表现为:高肥力土壤>低肥力土壤,360 mg·kg-1施氮量>120 mg·kg-1施氮量.施用硫铵条件下红壤性水稻土硝化作用强度降低,120和360 mg·kg-1施氮量下,高肥力土壤平均硝化速率分别比对照降低了41.8%和74.7%,低肥力土壤则分别降低了3.1%和65.3%,硝化作用表现为:低肥力土壤>高肥力土壤,120 mg·kg-1施氮量>360 mg·kg-1施氮量.     

双氰胺在四川3种主要土壤上的硝化抑制作用

采用室内培养试验方法,在不同浓度双氰胺(DCD)处理条件下,对四川3种主要土壤(紫色土、黄壤、灰潮土)的N2O释放量,NH4+-N及NO3--N含量动态变化进行了研究.结果表明,DCD对3种土壤N2O释放及土壤NO3--N含量有明显抑制作用,随DCD浓度增加,其抑制效果越显著.DCD同时能推迟NO3--N含量达到高峰,使土壤NH4+-N含量在较长时间保持相对较高水平,提高氮肥利用率,减少氮素流失.DCD在3种土壤上硝化抑制效果存在差异,表现为紫色土＞灰潮土＞黄壤.同时提出DCD在3种土壤上的适宜添加量,紫色土上为普通碳铵施入量的0.5%,黄壤和灰潮土上为0.3%.     

农田土壤硝化-反硝化作用与N_2O的排放

在北京潮土上研究了冬小麦夏玉米轮作体系下土壤硝化反硝化作用以及N2O排放情况。结果表明,小麦生育期土壤温度及含水量较低,无论是反硝化损失氮量还是土壤的N2O生成排放量均不高。土壤的N2O生成排放量与反硝化氮量相当或低于反硝化氮量。玉米生育期土壤温度升高以及孔隙含水量有较大的改善,反硝化损失氮量、N2O生成排放量有明显上升。通常情况下土壤反硝化损失氮量与N2O排放氮量基本处于同一水平。在玉米十叶期追肥后的较短时间内,N2O总排放量明显高于反硝化损失氮量,说明至少在这一阶段中,硝化作用在北方旱地土壤N2O的排放中发挥了主要作用。在评价北方旱地农田土壤氮素硝化反硝化损失中,硝化作用的氮素损失是不可忽视的重要方面。     

森林土壤固碳机理研究进展

全球碳平衡中,土壤有机碳储量为2000 Pg,植被碳储量500 Pg,大气碳储量785 Pg,土壤中有机碳变化是影响大气温室气体含量的重要因素。中国人工林总量世界第一,可以通过造林树种的选择,增加森林土壤的碳汇功能,它主要通过4种机理来实现,包括稳定性有机-矿物复合体的形成、持久性封存的深层碳的增加、耐分解有机物成份的积累、以及土壤团聚体结构中碳的物理性保护。中国近年来对木材的需求上升,导致大量短轮伐期人工林的种植,采伐、火烧炼山、施肥与整地等营林措施对土壤碳汇功能形成重大影响。因而,通过加强对中国人工林土壤固碳机理的研究,通过人为措施实现具有较强固碳能力的森林类型,从而提高人工森林生态系统的固碳能力,它对中国减排增汇战略具有重要意义,而加强对不同营林措施对碳汇功能影响的研究是中国当前面临的重大课题。     

Evaluating losses in ecosystem services in nature reserves in Sichuan,China

Nature reserves have developed rapidly over the decades in China and play a significant role in the function of ecosystem services. The function of ecosystem services in nature reserves, however, has tended to decline in recent years due to natural hazards and human activities. Based on land use, the variation of ecosystem services value (ESV) during 2000–2010 in national nature reserves in Sichuan was evaluated. We analyzed the comprehensive effects of natural disasters and human activities on the decline of ESVs. Total ESV in the national nature reserves in Sichuan was approximately 2741.35 million US$ in 2000, 2616.81 million US$ in 2005, and 2499.06 million US$ in 2010, representing a decrease of 242.29 million US$, or 8.84%, in the decade. Forestland, grassland, wetland, and water bodies played vital roles in the function of ecosystem services, with an aggregated ESV of 99% of the total. The largest proportion of the total ESV was the protection of biodiversity at 48.6%. ESV of all land use types and single ecosystem services continued to decline during 2000–2010. A mechanism of adaptable risk prevention should be established, and unreasonable human activities should be avoided to protect ecosystems and to improve the functions of ecosystem services.     

中国水稻土碳循环研究进展

文章首先分析了水稻土在碳循环研究中的地位和重要性，进而对我目水稻土碳循环的研究现状作了较为详尽的阐述，对其主要研究结论进行了深入的剖析。中国大而积的水稻土自1980年以来显示出有机碳库增加现象，说明水稻田对大气CO2可能产生汇效应。水耕熟化过程足有机碳的积累过程，水稻土的碳密度是早作土碳密度的2-3倍。水稻土的同碳能力与土壤的微团聚体的粒径有关。但对于水稻土中有机碳的分布和结合状态与农业管理措施、水稻土质量变化、农业生态环境变化的关系仍不清楚。因而建议就这一问题从土壤物理学、化学和生物学的相互作朋与土壤微团聚体中矿物质、有机质和微生物的相互结合关系的层面上进行多学科研究。同时提出了今后我困水稻土碳循环的重点研究方向和领域，即从整体和系统的角度来研究碳循环和平衡，从不同的时空区域来研究碳循环的过程和强度。     

中国公众参与环境管理的研究

回顾了中国公众参与环境管理的发展历程,分析了公众参与环境管理存在的问题。针对公众参与环境保护管理的有效性的影响因子,例如主观因素、传统背景、时效因素及执行技巧等进行一系列的探讨,并根据公众参与计划的设计构思、公众参与计划的关键两方面的讨论,提出增加公众参与环境保护管理有效性的一些建议。     

Is the antipredatory response in behaviour reflected in stress measured in faecal corticosteroids in a small rodent?

Predation risk has been shown to alter various behaviours in prey. Risk alters activity, habitat use and foraging, and weight decrease might be a consequence of that. In mammals, studies on physiological measures affected by risk of predation, other than weight, are rare. We studied in two separate laboratory experiments foraging, hoarding behaviour and expression of stress measured non-invasively from the faeces in the bank vole (Clethrionomys glareolus), a common boreal rodent. Voles were exposed to predation risk using odours of the least weasels (Mustela nivalis nivalis). Distilled water served as control. In the first experiment, we found that foraging effort, measured as sunflower seeds taken from seed trays filled with sand, was significantly lower in trays scented with weasel odour. Both immediate consumption of seeds and hoarding were affected negatively by the weasel odour. Females hoarded significantly more than males in autumn. In the second experiment, the negative effect of weasel odour on foraging was consistent over a 3-day experiment, but the strongest effect was observed in the first night. Foraging increased over the time of the experiment, which might reflect either energetic compensation during a longer period of risk, predicted in the predation risk allocation hypothesis, or habituation to the odour-simulated risk. Despite decreased foraging under predation risk, stress measured as corticosteroid metabolite concentration in vole faeces was not affected by the weasel odour treatment. In conclusion, we were able to verify predation-risk-mediated changes in the foraging effort of bank voles but no physiological stress response was measured non-invasively, probably due to great individual variation in secretion of stress hormones.     

Employment of passive sampling in monitoring indoor air quality in selected residences in a Tri-city area in Poland

Time-weighted average concentrations of selected volatile compounds were measured in chosen residences in a Tri-City area of Poland by means of passive sampling. The results were compared to those obtained by dynamic technique – sorption tubes filled with Tenax TA sorbent. Results obtained by employing the two techniques were similar. Total volatile organic compound (TVOC) parameters were also determined. An attempt was also made to evaluate the influence of outdoor air pollutants on indoor air quality.     

Genotypic variation in element concentrations in brown rice from Yunnan landraces in China

The mineral elements present in brown rice play an important physiological role in global human health. We investigated genotypic variation of eight of these elements (P, K, Ca, Mg, Fe, Zn, Cu, and Mn) in 11 different grades of brown rice on the basis of the number and distance coefficients of 282 alleles for 20 simple sequence repeat (SSR) markers. Six-hundred and twenty-eight landraces from the same field in Yunnan Province, one of the largest centers of genetic diversity of rice (Oryza sativa L.) in the world, formed our core collection. The mean concentrations (mg kg⁻¹) of the eight elements in brown rice for these landraces were P (3,480) > K (2,540) > Mg (1,480) > Ca (157) > Zn (32.8) > Fe (32.0) > Cu (13.6) > Mn (13.2). Mean P concentrations in brown rice were 6.56 times total soil P, so the grains are important in tissue storage of P, but total soil K is 7.82 times mean K concentrations in brown rice. The concentrations of the eight elements in some grades of brown rice, on the basis of the number and distance coefficients of alleles for 20 SSR markers for the landraces, were significantly different (P < 0.05), and further understanding of the relationship between mineral elements and gene diversity is needed. There was large variation in element concentrations in brown rice, ranging from 2,160 to 5,500 mg P kg⁻¹, from 1,130 to 3,830 mg K kg⁻¹, from 61.8 to 488 mg Ca kg⁻¹, from 864 to 2,020 mg Mg kg⁻¹, from 0.40 to 147 mg Fe kg⁻¹, from 15.1 to 124 mg Zn kg⁻¹, from 0.10 to 59.1 mg Cu kg⁻¹, and from 6.7 to 26.6 mg Mn kg⁻¹. Therefore, germplasm evaluations for Ca, Fe, and Zn concentrations in rice grains have detected up to sevenfold genotypic differences, suggesting that selection for high levels of Ca, Fe, and Zn in breeding for mass production is a feasible approach. Increasing the concentrations of Ca, Fe, and Zn in rice grains will help alleviate chronic Ca, Zn, and Fe deficiencies in many areas of the world.     

Lead in a residential environment in Jamaica

The background levels of lead in Jamaica in soils and sediments, estimated at 37 mg kg^–1, are relatively high compared with world averages. Several areas have values in excess of this due to mineralisation and pollution. One such is the residential Hope Flats/Kintyre area in which levels of lead up to 2.5% are found in the soils and up to 8 g kg^–1 in the water of the nearby Hope River. The blood lead levels of a sample of children were in the range 5.7–57 g dl^–1. The high lead levels suggest a potential health risk, particularly for the children. This can be minimised by programmes which include community education, case management and abatement to reduce the lead exposure.     

硝基芳香化合物的植物作用研究进展

硝基芳香化合物是环境中难以降解的污染物之一。因其用途广泛,大量残留于土壤,水体和大气中,造成的环境污染日趋严重。多种植物对该类污染物具有吸收、富集和代谢降解作用,利用植物对其环境污染进行治理是一种有效的方法。文章在总结国内外有关硝基芳香化合物的植物作用研究基础上,重点阐述了植物对硝基芳香化合物的吸收、转运和代谢过程,分析了吸收、代谢机理以及影响吸收的因素;硝基芳香化合物的理化特性、浓度和植物自身特性及其它外界条件都会影响植物对该类化合物的吸收,植物可以通过体内降解、体外联合代谢、根部释放酶催化的机制实现该类化合物的降解。目前,硝基芳香化合物进入植物细胞膜的机理认知不足,模拟模型缺乏有力数据验证;代谢机制中参与反应的酶、化合物等体系和反应产物环境特性仍不明确,植物修复可行性缺乏有力证据。未来将在模型预测构建、降解机理和修复工程的实际应用方面作进一步探究,以形成系统的认知,为硝基芳香化合物污染土壤和农产品的生态风险评价以及植物修复提供理论依据。