宁夏引黄灌区稻田氮磷流失特征初探

在宁夏引黄灌区选择相对封闭灌排体系作为试验监测区,通过2年在作物灌溉期间对试验监测区的灌排水中氮磷的跟踪监测,研究了该区域氮、磷流失,分析了支渠灌溉水、支沟排水中的氮磷动态变化规律。研究表明：2006年种稻区的氮磷流失明显高于2007年的稻旱区,稻区氮的流失负荷15.2kg·hm-2,磷的流失负荷6.9kg·hm-2;稻区比稻旱区氮磷流失严重,稻区总氮变幅在0.32～8.22mg·L-1,总磷变幅在0.012～0.921mg·L-1,均超过水体富营养化指标;稻区支沟排水中氮磷组分变化与稻旱区一致,氮都是以硝态氮为主,磷以溶解性总磷和颗粒磷为主,支沟排水中的硝态氮动态变化与总氮变化一致,颗粒磷与总磷动态变化一致,均为前期颗粒磷含量较高,中后期较低,可溶性总磷与之相反;灌溉前期支沟排水中氮磷流失严重的几个时期,均是在各种作物施肥7～10d后,尤其氮、硝态氮流失严重,后期支沟排水中氮磷流失是由于传统的不合理的灌溉形成的地表径流,将灌溉水养分含量迁移到排水中,造成支沟排水氮磷流失加重。结合宁夏引黄灌区的自然条件、耕作方式等因素,综合分析了宁夏引黄灌区在作物灌溉期间非点源污染产生过程及污染特点,为该地区非点源污染管理和控制提供科学依据。     

高原深水湖泊程海氮磷形态分布特征及其与叶绿素a的相关性

湖泊水体氮、磷形态分布特征及其与藻类生长的关系是湖泊富营养化研究的重要方面。采用GPS定位,在程海湖设置了3个断面9个采样点,研究了氮、磷形态分布特征,并分析了各形态氮磷与叶绿素a的相关性。结果表明：总氮（TN）质量浓度为0.773 mg.L-1,总磷（TP）质量浓度为0.046 mg.L-1,叶绿素a质量浓度为0.024 mg.L-1。氮素的赋存形态特征是以溶解态总氮（DTN）占大部分,DTN中又以溶解态有机氮（DON）占绝大部分;磷素的存在特点是溶解态无机磷（DIP）含量比重较大。各形态氮、磷都有明显的季节性波动但区域性差异不明显,叶绿素a则有明显的季节节律和时空差异。叶绿素a很好地响应了总氮（TN）、总磷（TP）、溶解态总氮（DTN）、溶解态总磷（DTP）、颗粒态总氮（PTN）、颗粒态总磷（PTP）的变化。程海富营养化受氮和磷共同限制,控制富营养化必须同时削减氮和磷。     

小清河流域氮磷时空特征及影响因素的空间与多元统计分析

选取山东小清河流域为研究区,在2012—2013年汛期和非汛期的水质监测基础上,应用主成分分析(PCA)和聚类分析(CA)等多元统计方法识别流域不同形态氮磷浓度的时空分布特征,结合空间分析和相关分析方法辨析集水区不同土地利用方式对氮磷输出的影响。结果表明:流域氮污染严重,其中总氮超标率达100%。氨氮、磷酸盐浓度汛期显著高于非汛期,硝态氮浓度则非汛期显著高于汛期(P0.05)。以总磷、总溶解态磷为主要指标的主成分Z1对水质变化的贡献率接近50%,以总氮、氨氮和硝态氮为主要指标的主成分Z2对水质变化的贡献率接近20%。总氮、总磷、氨氮、磷酸盐和总溶解态磷浓度与集水区城市和工业建设用地的面积比例呈显著正相关(P0.05);硝态氮浓度与耕地面积比例呈显著正相关,与草地、林地面积比例呈显著负相关(P0.05)。空间上按氮磷分布特征不同子流域被划分为3类:第1类和第2类主要集中在干流及北部平原区,沿途接纳点源排放,氮磷浓度总体较高且空间差异较大;第3类流域主要位于南部山区,建设用地比例较小,污染程度相对较低。     

程海冬季水华暴发期间氮、磷营养元素的形态与分布

氮、磷营养元素是湖泊生态系统中极其重要的生态因子,它们以不同形态存在于湖泊水体中,表现出不同的地球化学行为和生态效应,从而支配着湖泊生态系统的生产力水平和湖泊富营养化进程。通过设置3个断面9个采样站14个采样点,研究了程海湖水体中氮、磷营养元素的形态与分布,结果表明：2009年11月23日—2010年2月20日,以铜绿微囊藻（Microcystis aeruginosa Kutz.）为主的程海冬季水华暴发期间,总氮质量浓度0.540~3.906 mg.L-1,平均0.836 mg.L-1;总磷质量浓度0.036~0.166 mg.L-1,平均0.061 mg.L-1。其中,溶解态氮、溶解态磷分别为61.7%和50.8%。溶解态氮以有机氮为主,溶解态磷则以无机磷为主。水华期间生物可直接利用氮质量浓度0.118 mg.L-1;生物可直接利用磷质量浓度0.021 mg.L-1,分别占总氮、总磷质量浓度的14.1%和34.4%,显示出此特定时期,氮的消耗速度较磷快。氮素、磷素及其赋存形态在程海的时间分布上有不同的节奏;水平分布差异不明显;垂直分布在水表层至亚底层的水柱中差异也不明显,而在湖底层最高。     

骆马湖水质时空变化特征

于2014年1—12月对骆马湖10个样点水体理化指标开展周年监测,分析水质现状和水体营养状态,并结合聚类分析等多元统计分析方法识别水质时空变化特征。结果表明,方差分析显示透明度、电导率、溶解氧、氮、磷及叶绿素a等多项指标均呈现显著的月份变化,空间差异分析表明仅水深在各样点间差异显著,表明骆马湖水质空间差异较小。各月份总氮、总磷、高锰酸盐指数、叶绿素a质量浓度的样点均值分别为0.71~2.08 mg·L-1、23.82~71.78μg·L-1、1.87~5.09 mg·L-1、4.49~10.83μg·L-1,骆马湖水质为Ⅲ~劣Ⅴ类,总氮是现阶段的主要污染物,综合营养状态指数(TLI)表明骆马湖处于中营养~轻度富营养状态。聚类分析将12个月分为冬春季和夏秋季2个聚类组,冬春季透明度、溶解氧、总氮、硝态氮浓度显著高于夏秋季,而叶绿素a和总磷浓度则呈现相反的变化趋势。聚类分析将10个样点分为北部湖区和南部湖区2个聚类组,总氮、硝态氮浓度和电导率是导致湖区水质差异的主要指标,北部湖区上述指标显著高于南部湖区。     

广东省不同水库底泥理化性质对内源氮磷释放影响

采用分级浸取分离方法,分析了广东省10个典型水库底泥的氮磷营养形态分布和污染状况;并通过模拟覆水试验,研究了不同水库底泥氮磷形态及理化性质对内源氮磷释放的影响。结果表明：广东省10个水库底泥氮磷污染较为严重,全氮含量为0.33~3.31 g.kg^-1,平均值为1.70 g.kg^-1;全磷含量为0.14~2.63 g.kg^-1,平均值为1.31 g.kg^-1。底泥氮磷主要以可转化态形式存在,可转化态氮磷含量占总氮磷含量百分比分别为41.2%~71.4%和53.6%~93.2%。底泥内源氮磷的释放主要受氮磷的赋存形态和含量的影响,水库底泥总氮的释放量与离子交换态氮（IEF-N）、碳酸盐结合态氮（WAEF-N）、铁锰氧化物结合态氮（SAEF-N）呈极显著正相关关系,相关系数分别为0.931、0.814、0.807;总磷的释放量与碳酸盐结合态磷（WAEF-P）、铁锰氧化物结合态磷（SAEF-P）呈极显著正相关,相关系数分别为0.960、0.957;这几种氮磷形态是上覆水体中氮磷的重要来源。同时底泥内源氮磷释放还与底泥机械组成有关,其中总氮和总磷释放量与底泥黏粒质量分数呈显著正相关,相关系数分别为0.738、0.638;而总氮的释放量与底泥砂粒质量分数呈显著负相关,相关系数为-0.685。这可能与可转化态氮磷更多的分布在细粒级底泥中有关,细颗粒底泥氮磷释放是上覆水体氮磷的主要来源。     

蓟运河汉沽河段中黄磷的分布与磷的形态研究

本文介绍了蓟运河汉沽河段水和底泥中黄磷的含量和分布、磷的存在形态以及各形态之间的比例。该河段黄磷污染的范围很窄,河水中黄磷含量不超过2μg/l,底泥中黄磷含量最高达117mg/kg干土;污染河段中黄磷埋藏总量约为0.3吨。河水中总磷含量比一般水体高出9—34倍;正磷酸盐浓度比一般水体高百倍以上。底泥中总磷,水溶态总磷,水溶态正磷酸盐等均比一般底泥中的含量高,尤其是水溶态总磷比一般底泥高10倍。     

洞庭湖浮游植物增长的限制性营养元素研究

近20年水质监测资料表明,洞庭湖水体富营养化日趋严重。洞庭湖水体主要污染物为氮和磷,而营养盐赋存形态及其含量对浮游植物生长的影响在洞庭湖尚未见报道。2011年9月至2012年8月对洞庭湖浮游植物生物量及主要营养盐赋存形态与含量进行监测,同时利用藻类增长的生物学（NEB）评价方法对限制浮游植物增长的营养盐进行了研究,并分析了浮游植物生物量与各营养元素之间的相关性。结果表明：洞庭湖主要污染物总氮（TN）和总磷（TP）的年平均值分别为1.90 mg·L-1和0.093 mg·L-1,溶解态无机氮（DIN）平均占ρ（TN）比例为87%,溶解态总磷（DTP）平均占ρ（TP）比例为70%。洞庭湖水体中,DIN是TN的主要贡献者,且不同形态DIN的贡献大小依次为ρ（NO3--N）〉ρ（NH4＋-N）〉ρ（NO2--N）;磷形态组成中,TP主要以溶解反应性磷（SRP）存在。春季洞庭湖水体中ρ（TN）、ρ（TP）较高,这一结果可能源于春季面源污染。洞庭湖水体中ρ（Chla）与氮显著正相关,与磷显著负相关。NEB 实验结果表明氮对洞庭湖浮游植物生长有明显的促进作用,其幅度随氮浓度的增加而加强,而磷对浮游植物的生长影响不大,有时出现抑制作用,硝态氮与磷之间不存在交互作用。因此,氮可能是洞庭湖浮游植物增长的主要限制性营养因子,这一研究暗示在洞庭湖富营养化控制过程中应特别注重氮的控制。     

湖库滨岸带土地利用对潜水中氮磷削减率的影响

研究了太湖西部的天目湖和大溪水库以裸地、草地、林地和裸露滩地为主的4种覆盖类型滨岸带潜水中氮磷浓度的空间变化,分析了不同滨岸带对潜水中氮磷的削减率,并对影响潜水氮磷浓度及削减率的主要因素进行分析。结果表明,滨岸带潜水中氮的主要形态为硝态氮,其质量浓度变化范围为0.48~6.83 mg·L-1,氨氮浓度普遍较低,草地和林地滨岸带对硝态氮削减效果较好,平均削减率分别为68.3%和63.4%,而耕地滨岸带潜水中硝态氮浓度有升高趋势。滨岸带潜水中磷的主要形态为溶解性磷,裸地对磷的削减率较高,达32.0%,草地和林地滨岸带对磷的削减率较低,总体上滨岸带对氮的削减率要远高于磷。分析认为影响研究区滨岸带氮磷削减率的主要因素是土壤结构、植被类型和水文状态。     

江苏省夏季浮萍种类及其生长水环境调查

对江苏省多个县（市）分布有浮萍的工业区、生活区、农田水体进行调查与采样,观测各地浮萍种类及其生长水体的富营养化状况,探讨水体pH值,铵态氮、硝态氮、总氮、总磷含量与浮萍分布的关系。调查结果表明,浮萍适宜生长在静止的水体中,流动的河流中较为少见;此外,浮萍适宜生长在农田和生活区水体中,工业区附近样本数较少。江苏省夏季浮萍的主要品种为紫萍（Spirodelapolyrrhiza）、青萍（Lemmaminor）、芜萍（Wolffiaarrhiza）和少根紫萍（Spirodelaoligorrhiza）,调查期间未发现稀脉浮萍（Lemmaperpusilla）与品藻（Lemmatrisulca）。紫萍和青萍在所调查的每个采样点均有分布,其生长水体的pH值变化范围（4．5～7．5）较大。浮萍生长水环境的氮、磷养分浓度范围很广,铵态氮、硝态氮、总氮、总磷质量浓度范围分别为0～42、0．2—2．0、0．2～45和0．02～13mg·L-1,尚未发现浮萍分布与水体氮、磷含量之间的必然联系。工业区附近水体中常见紫萍与青萍以共生形式存在,偶尔还伴有芜萍。在利用浮萍去除水中氮、磷营养物质时,应优先考虑利用各地当季优势浮萍品种及不同品种浮萍的共生复合系统,保障浮萍的最大生长量以及对水体氮、磷的最大去除率。     

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。     

生物扰动在水层-底栖界面耦合中的作用

综合评述了生物扰动在水层-底栖界面耦合中的作用研究进展和热点问题,并进行了展望。国际上十分重视水层-底栖界面耦合过程的研究并已有一定基础,生物扰动作为海洋生态学的重要内容之一早在20世纪50—60年代就已开展了工作,但直到10余年前才真正开始定量研究,进入了实验模拟、现场观测与建立模型相结合的新阶段。国内的生物扰动研究尚处于起步阶段,加上技术方法落后,一直未能取得突破性进展。目前国内外关于水层-底栖界面生物扰动效应研究基本上都在海洋中开展,尤其在河口、近岸和浅海水域进行,湖泊和河流研究明显薄弱。作为水生态动力学的重要分支和前沿领域,生物扰动研究具有广阔前景。急需针对我国水域特点,引进先进的现场观测和室内测试手段,进一步揭示水层-底栖界面耦合过程中的生物扰动机制,更精准和更详细地掌握水域中各种物质的生物地球化学循环的全过程,为控制水体内源污染释放、富营养化治理和生态建模等提供科学依据。     

Variation in male courtship costs in butterflies

A cost of mating is common to both sexes but has predominantly been examined in females. In species where males provide resources to females at copulation, male mating costs are expected to be high as nutrient provisioning enhancing female fecundity is assumed to carry costs. In addition, males frequently court females prior to mating, which is known to carry survival costs to both sexes. However, the magnitude and basis of variation in males’ mating costs remains largely unknown. Here, I examine the effect of nutrient provisioning and courtship on male longevity across full-sib families in the paternally investing green-veined white butterfly, Pieris napi. Copulating males suffered a survival cost as did courting males prevented from copulating, indicating the courtship component of mating is costly. Male P. napi release aphrodisiacs during courtship to promote mating, indicating that these compounds may also be costly to produce. Contrary to expectation, nutrient provisioning was not associated with reduced survival relative to males only allowed to court females, although it is possible that this could be masked by the potentially elevated courtship rates of courting males relative to mating males. Families differed in magnitude of reduced male survivorship, indicating a likely genetic basis to variation in costs of courtship and copulation. Male weight was unrelated to longevity and mating success, whereas longevity strongly influenced male mating success, indicating lifespan is an important male fitness trait in this species.     

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.     

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.     

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.