上海地区大气氮湿沉降及其对湿地水环境的影响

根据1998～2003年上海地区雨水中NO₃^--N、NH₄⁺-N浓度,采用单因子评估模式评价了降雨对湿地水环境的影响,并结合降雨量数据,研究了大气湿沉降氮通量.结果表明,上海地区雨水中氮浓度较高,6年雨水平均硝态氮浓度为259 mg·L^-1,铵态氮浓度为2.16 mg·L^-1,总无机氮（TIN）浓度474 mg·L^-1,远大于水体富营养水中氮浓度阀值（0.2 mg·L^-1）,依据降水中的氮浓度,降水已达到地表水V类、劣V类水平.6年湿沉降氮通量平均值为58.1 kg·hm^-2·yr^-1,其中NO₃^--N占54%.大气氮沉降对湿地水体富营养化影响值得关注.     

施用坡缕石对黄绵土中尿素氮的挥发和淋溶损失的影响

通过室内模拟试验,采用吸收法和土柱淋溶法研究了施用坡缕石对黄绵土中尿素氮的挥发和淋溶的影响.结果表明：施用坡缕石+尿素处理能降低尿素氨挥发高峰期的挥发速率,比单施尿素处理的氨挥发损失减少了13.6%～15.0%.坡缕石施用量为0.3和0.6 g·kg^-1时,降低了NH₄⁺-N和NO₃^--N的淋溶速率,无机氮淋溶损失比单施尿素处理分别减少13.7%和13.6%;而坡缕石施用量为0.9 g·kg^-1时,加快了NH₄⁺-N和NO₃^--N的淋溶速率,无机氮淋溶损失比单施尿素处理增加了6.1%.施用低量（0.3 g·kg^-1）坡缕石+尿素处理土壤的NH₄⁺-N含量比单施尿素处理提高了0.20 mg·kg^-1,而施用高量（0.9 g·kg^-1）坡缕石+尿素处理土壤的NH₄⁺-N含量比单施尿素处理降低了0.42 mg·kg^-1;施用坡缕石+尿素处理土壤的NO₃^--N含量比单施尿素处理增加1.24～2.52 mg·kg^-1.表明施用坡缕石能减少土壤中尿素氨的挥发损失,在一定用量范围内能降低NH₄⁺-N和NO₃^--N的淋失,提高土壤NH₄⁺-N和NO₃^--N含量.     

不同浓度铵态氮对镉胁迫轮叶黑藻生长及抗氧化酶系统的影响

用含有不同浓度NH₄⁺-N (0、0.5、2.0和4.0 mg·L^-1)和10 mg·L^-1Cd的1/10 Hoagland营养液培养沉水植物轮叶黑藻,研究了氨态氮对Cd胁迫下轮叶黑藻的生长及抗氧化酶系统的影响,探讨富营养化污染水体沉水植物退化机理.结果表明,10 mg·L^-1Cd对轮叶黑藻能产生明显的胁迫作用,叶绿素合成量明显降低;超氧化物岐化酶(SOD)与过氧化物酶(POD)活性呈先升高后下降的趋势.NH₄⁺-N能加速Cd对植物的胁迫作用,单因子Cd作用3 h时SOD明显升高,而Cd和NH₄⁺-N共同作用0.5 h SOD就明显升高.Cd与NH₄⁺-N共同作用时,相对于叶绿素和蛋白质,抗氧化酶是早期敏感指标,并且SOD比POD更敏感.本试验条件下,NH₄⁺-N与Cd共同作用2 d后,对轮叶黑藻的胁迫作用主要取决于Cd,NH₄⁺-N的作用几乎可以忽略.     

不同森林群落类型溪流水化学特征的季节动态

以小兴安岭凉水自然保护区内的阔叶红松林、云冷杉林和落叶松人工林为研究对象, 于2006年3—10月, 分析了其溪流水化学特征的动态变化. 结果表明: 不同月份3种森林群落溪流水的主要阳离子含量均表现为 Ca²⁺>Na⁺>K⁺>Mg²⁺, 主要阴离子含量均为HCO₃^->SO₄^2->NO₃^->Cl^-;不同群落类型的主要离子含量影响显著, 3种森林群落溪流水中Na⁺、Ca²⁺、Mg²⁺、Fe²⁺和Fe³⁺平均含量为云冷杉林>落叶松人工林>阔叶红松林, 而K⁺为落叶松人工林>云冷杉林>阔叶红松林; 主要阴离子平均含量均以落叶松人工林溪流水中为最高.     

不同渗漏计对稻田氮素渗漏量的测定差异

采用直管型和弯管型渗漏计,对不同施氮水平下水稻生育期间渗漏水中的铵态氮、硝态氮和全氮浓度进行测定分析.结果表明：2007年直管与弯管渗漏计中渗漏水的铵态氮浓度变化范围均在0～8 mg·L^-1,高于2006年0～4 mg·L^-1的铵态氮浓度变化范围;2007年直管渗漏计中渗漏水的硝态氮浓度主要集中在0～4 mg·L^-1,与2006年基本一致,而弯管渗漏计中渗漏水的硝态氮浓度变化较大,其变动范围主要集中在0～20 mg·L^-1,高于2006年的硝态氮浓度;2007年渗漏水中的全氮浓度变化范围为0～60 mg·L^-1,远高于2006年0～16 mg·L^-1的全氮浓度变化范围.稻田渗漏水中的氮素以硝态氮为主.2007年直管型渗漏计中总氮(TN)渗漏流失负荷为15.81 kg·hm^-2,NO₃^--N为9.33 kg·hm^-2,弯管型渗漏计中TN渗漏流失负荷为7.21 kg·hm^-2,NO₃^--N为4.25 kg·hm^-2.稻田渗漏水中铵态氮和硝态氮的渗漏流失途径不同,应当采用不同的计算方法估算直管型及弯管型渗漏计中的氮素渗漏量,采用直管型渗漏计对氮素渗漏量的估算较接近于用测坑试验测定的氮素渗漏负荷.     

半湿润地区农田夏玉米氮肥利用率及土壤硝态氮动态变化

以土垫旱耕人为土为供试土壤,通过田间试验,研究了不同施氮量下（0、45、90、135和180 kg·hm^-2）夏玉米生育期土壤剖面NO₃^--N的变化特征、氮素利用率及施氮量与土壤NO^₃--N残留的关系.结果表明：在整个生育期内,土壤NO₃^--N含量均以0～20 cm土层最高,且施氮量越高,NO₃^--N含量也越高;0～60 cm土层NO₃^--N含量变化显著,60～100 cm土层NO₃^--N含量变化不大.夏玉米整个生育期,受玉米对氮素的需求和降雨的影响, 0～100 cm土层NO₃^--N累积量呈波动式降低趋势;当施氮量小于135 kg·hm^-2时,作物氮肥利用率随施氮量的增加而显著提高,但当施氮量超过135 kg·hm^-2时呈下降趋势. 氮肥农学利用率随施氮量的增加而减小,氮肥生理利用率随施氮量的增加而递增.土壤中残留NO₃^--N与施氮量呈极显著正线性相关关系 (R²=0.957^**,n=5);施氮处理籽粒产量显著高于不施氮处理(P<0.05）;施氮量与籽粒产量呈极显著正线性相关关系（R²=0.934^**,n=5）.在本试验条件下,夏玉米生长季适宜施氮量为135 kg·hm^-2.该施氮水平可保证效益和环境的双赢.     

蚯蚓和秸秆对铜污染土壤微生物类群和活性的影响

试验设置4个Cu浓度水平：0、100、200和400 mg·kg^-1 Cu²⁺,每个Cu浓度水平设置4个处理：对照(CK)、表施秸秆(M)、接种蚯蚓(E)、同时加入蚯蚓和秸秆(ME),研究了在Cu污染土壤中加入蚯蚓和秸秆对土壤微生物数量及活性的影响.结果表明：Cu污染、秸秆和蚯蚓均明显影响土壤微生物类群; Cu污染对细菌、放线菌具有抑制作用,而对真菌没有影响;秸秆显著提高了真菌数量;蚯蚓使土壤细菌、放线菌数量显著增加,而对真菌数量影响不大.Cu污染浓度＞200 mg·kg^-1处理对微生物量碳具有抑制作用;加入秸秆或蚯蚓,可显著提高土壤微生物量碳,而且同时加蚯蚓和秸秆处理土壤微生物量碳增加最显著.加入蚯蚓和秸秆后,土壤呼吸值显著增高.Cu<200 mg·kg^-1时,蚯蚓处理土壤呼吸值最大,平均比对照高3.06～5.58倍;Cu≥200mg·kg^-1时,蚯蚓、秸秆同时加入处理土壤呼吸值最高.4个处理土壤代谢商大小顺序为：ME>E>M>CK.蚯蚓和秸秆处理对土壤NH₄⁺-N没有影响,而对土壤NO₃^--N影响各异.接种蚯蚓,可显著提高土壤NO₃^--N含量;加入秸秆,可显著降低土壤NO₃^--N含量;同时加入蚯蚓和秸秆处理NO₃^--N含量最低.相关分析表明,土壤有效态Cu(DTPA-Cu)与土壤放线菌、细菌呈显著负相关,而与土壤呼吸、土壤NO₃^--N、NH₄⁺-N含量呈显著正相关.引入秸秆和蚯蚓,可在一定程度上减缓Cu污染对微生物数量和活性的影响.     

氮磷营养因子对赤潮异弯藻生长的影响

研究了N、P营养浓度对赤潮异弯藻(Heterosigma akashiwo)生长的影响.结果表明,该藻的生长速率与N、P营养因子浓度的关系符合Monod公式.在NO₃^--N浓度达到7.5 mg·L^-1时,赤潮异弯藻开始生长;浓度为3.75～75 mg·L^-1时,赤潮异弯藻的比生长速率与NO₃^--N浓度成正比关系.N营养充足时,赤潮异弯藻的最大生长速率μ_m-n=0.3475·d^-1,K_s-n=18.91 mg·L^-1.PO₄^--P浓度为0～1.0 mg·L^-1时,赤潮异弯藻的比生长速率与P浓度成正比关系;P营养充足时,赤潮异弯藻的最大生长速率μ_m-p=0.3024·d^-1,K_s-p=0.4086 mg·L^-1.N/P达到25后藻细胞浓度达到最大,表明N/P为25时最适合赤潮异弯藻生长.赤潮异弯藻最适合在N 37.5～225.0 mg·L^-1、P 5.0～50.0 mg·L^-1、N/P=25条件下生长.     

葡萄糖存在下选择性抑菌剂对土壤氮素转化的影响

采用2种氮源并分别加入选择性微生物抑制剂进行室内培养,通过测定样品中NH₄⁺-N和NO₃^--N及土壤中氨基葡萄糖和胞壁酸含量,研究土壤微生物氮素固持时间特征及其相对贡献.结果表明,加入青链霉素明显地降低了NH₄⁺-N的转化速率,且影响远大于真菌抑制剂放线菌酮;氨基葡萄糖和胞壁酸的相对比例急剧增加,而后趋于平衡;加入放线菌酮后NO₃-N转化速率持续下降,氨基葡萄糖的合成受到抑制,但加入细菌抑制剂青链霉素对其转化无显著影响.培养初期,细菌在葡萄糖存在下能快速固持NH₄⁺-N和NO₃^--N,并以NH₄⁺-N为首选氮源;培养后期,氮转化主要为真菌所推动,且真菌对NO₃^--N的利用能力显著大于细菌.     

四种温带森林土壤氧化亚氮通量及其影响因子

以中国东北东部4种典型森林生态系统(人工红松林、落叶松林、天然次生蒙古栎林和硬阔叶林)为研究对象,采用静态暗箱-气相色谱法,比较其土壤N₂O通量的季节动态及其影响因子.结果表明：在生长季, 4种森林生态系统土壤总体上表现为大气N₂O的排放源, 其N₂O通量大小顺序为：硬阔叶林(21.0±4.9 μg·m^-2·h^-1)> 红松林(17.6±4.6 μg·m^-2·h^-1)>落叶松林(9.8±5.9 μg·m^-2·h^-1)>蒙古栎林(1.6±12.6 μg·m^-2·h^-1).各生态系统的N₂O通量没有明显的季节动态,只在夏初出现排放峰值(蒙古栎林为吸收峰).4种生态系统N₂O通量均与10 cm深土壤含水量呈极显著正相关,与NO₃^--N呈显著负相关;N₂O通量对土壤温度和NH₄⁺-N的响应出现分异：针叶林N₂O 通量与NH₄⁺-N呈显著正相关,而与5 cm深土壤温度呈不相关;阔叶林与针叶林正相反.在较为干旱的2007年,土壤水分是影响4种林型土壤N₂O通量的关键因子.植被类型与环境因子及氮素有效性对N₂O通量的相互作用将是未来研究的重点.     

酸雨对温州三土羊湿地水体氮营养盐数量的影响

为了解酸雨对温州三羊湿地水体氮营养盐数量的影响,本文测定了三土羊湿地水体中不同形态氮的含量,其中氨氮2.90～10.75 mg·L^-1,平均538 mg·L^-1、硝态氮0.16～0.44 mg·L^-1,平均0.31 mg·L^-1;总氮34.04～63.20 mg·L^-1,平均55.75 mg·L^-1和水体的pH值,6.1～6.5,平均6.4;并测算了近两年通过降水输入到三羊湿地和三羊湿地水体中不同形态氮的数量及其占湿地现有水体中各形态氮的比例,其中输入到三羊湿地氨氮、硝态氮和总氮的量分别为2.48～2.86×10⁴ kg、2.87×10⁴～4.96×10⁴ kg和5.35×10⁴～7.82×10⁴ kg,分别占湿地水体现有量的56%～64%、11.21～19.38倍和12%～17%;直接输送到三羊湿地水体各形态氮的数量0.72×10⁴～0.84×10⁴ kg、0.83×10⁴～1.44×10⁴ kg和1.55×10⁴～2.27×10⁴,分别占现有量的16%～19%,3.24～5.63倍和3%～5%.结果表明,酸雨是三,羊湿地水体氮污染的主要来源之一,对三羊湿地水体富营养化产生重要影响.     

Effect of level and origin of rumen degradable nitrogen on rumen microbial growth and nitrogen utilisation efficiency of animals fed maize silage at maintenance.

Isoenergetic maize silage diets, fed at maintenance to 24 suckling cows (Exp. 1) and to 3 (Exp. 2) or 4 (Exp. 3) rumen fistulated sheep, were compared with a urea and controlled release NPN diet (Exps. 1 and 2) and with a protein-N supplemented diet (Exp. 3). Supplementation increased blood urea concentrations (44.7 +/- 22.3 vs. 97.6 +/- 23.7 mg urea-N x L(-1)) (Exp. 1) and renal urea excretion (2.5 +/- 1.1 vs. 7.6 +/- 1.8 g urea-N x d(-1)) (Exps. 2 and 3), whereas blood allantoin concentrations (286.7 +/- 77.0 micromol x L(-1)) (Exp. 1) and renal excretion of purine derivatives (357.6 +/- 90.7 mg purine-N x d(-1)) (Exps. 2 and 3) were not affected, indicating additional N supplementation did not improve rumen microbial growth. However, some deficiency of rumen degradable N might occur in non supplemented diets as suggested by the reduced rumen NH3-N and RNA concentrations (868 +/- 270 vs. 1466 +/- 466 mg RNA x kg(-1) rumen contents).     

北京西山不同人工林枯落物层的水化学性质

通过采集降雨经枯落物后的水样,初步研究了北京西山地区油松林和栓皮栎林林下枯落物层的水化学性质.结果表明:大气降水经过林冠进入枯落物层后,油松林和栓皮栎林林下不同元素的浓度发生明显变化.枯落物水中K 、Na 、Ca2 、Mg2 、NH4 -N和NO3--N的浓度随时间的变化趋势基本一致.穿透雨经过枯落物层后,水中K 、Na 、Ca2 和Mg2 的平均浓度增加,而NH4 -N、NO3--N的平均浓度减小.其中,栓皮栎林和油松林中Ca2 浓度分别增加了7.54和5.27mg.L-1.栓皮栎林下枯落物层中K 、Na 、Ca2 、Mg2 的平均浓度高于油松林,而NH4 -N、NO3--N的平均浓度则低于油松林;经降水淋溶作用后,栓皮栎林和油松林林下枯落物归还林地的养分分别为41.59和58.12kg.hm-2,其中归还林地较多的是Ca2 ,其次是K .     

Associations between smoking, GST genotypes and N7-methylguanine levels in DNA extracted from bronchial lavage cells

N7-Methylguanine (N7-MeG) DNA adducts are markers of human exposure to methylating agents including tobacco-specific nitrosamines (TSNAs). Repair of this adduct is poor, so levels in lung tissue should reflect variation in both intensity of exposure and in metabolism. N7-MeG adducts in lung DNA from bronchial lavage samples were measured to determine whether levels were higher in smokers than non-smokers, and if levels were modified by genetic variation in carcinogen-metabolising enzymes. Adducts were detected in 38 out of 44 DNA samples by 32P post-labelling of the N7-methyldeoxyguanosine-3'-monophosphate (N7-MedGp) isolated from DNA digests by two-stage HPLC. N7-MeG adduct levels were higher in smokers than in never smokers ((9.99 +/-20.3)x10(-7) versus (0.58+/-0.50)x10(-7) N7-MedGp/deoxyguanosine-3'-monophosphate (dGp); P=0.02) and intermediate in ex-smokers ((5.59+/-15.6)x10(-7) N7-MedGp/dGp). Adduct levels tended to be higher in individuals with GSTM1 null, GSTT1 null or GSTP1 ile/ile genotypes. When genotypes were combined, N7-MedGp levels among GSTM1 null/GSTT1 null individuals (n=6) were higher than among those having at least one wild-type allele of these two genes ((26.1+/-38.0)x10(-7) versus (2.73+/-4.07)x10(-7) N7-MedGp/dGp), although the results were not statistically significant (P=0.13). Adduct levels were highest in individuals with three unfavourable genotypes (GSTM1 null/GSTT1 null and GSTP1 ile/ile) compared with others ((74.5+/-13.1)x10(-7) versus (2.64+/-3.89)x10(-7) N7-MedGp/dGp, P=0.02). N7-MeG adduct levels in DNA isolated from lung tissue thus reflect exposure to cigarette smoke, and genetic variation in carcinogen-metabolising enzymes may modify these levels.     

Nitrogen dynamics of storm runoff in the riparian zone of a forested watershed

The influence of storm runoff processes on stream nitrogen dynamics was investigated in a headwater riparian swamp on the Oak Ridges moraine in southern Ontario. Hydrologic data were combined with analysis of an isotopic tracer (¹⁸0) and nitrogen (NH ₄ ⁺ , NO ₃ ^– ) concentrations in saturation overland flow and stream discharge. Storm runoff was separated into its event and pre-event components using¹⁸O in order to examine the effect of water source on nitrogen chemistry. Laboratory experiments were also used to study nitrogen transformation associated with storm runoff-surface substrate interactions in the swamp. In most storms N0₃-N and NH₄-N concentrations in the initial 3–4 mm throughfall increment were 10–20x and 20–100x higher respectively than stream base flow concentrations. Maximum stream N0₃-N concentrations were < 2x to 6x higher than base flow concentrations and preceded or coincided with peak stream discharge. Storm-to-storm variations in stream N0₃-N behaviour also occurred during the hydrograph recession phase. NH₄-N concentrations attained an initial peak on the rising hydrograph limb, or at peak stream discharge. A second NH₄-N increase occurred during the late recession phase 3–5 h after maximum stream discharge. Inorganic-N concentrations in surface runoff were similar to peak streamflow.The close agreement between observed N0₃-N concentrations and values predicted from a chemical mixing model indicate that stream N0₃-N variations were controlled mainly by the mixture of throughfall and groundwater in surface stormflow from the swamp. Laboratory experiments also indicated that N0₃-N in surface runoff behaved conservatively when mixed with swamp substrates. With the exception of the late hydrograph recession phase, observed stream NH₄-N concentrations were much lower than concentrations predicted by the chemical mixing model. The rapid loss of NH₄-N from mixtures of surface stormflow and swamp substrates in laboratory experiments and the absence of uptake in sterilized substrates indicated that NH₄-N retention in surface storm runoff was due to biotic processes.     

不同营养状态下金鱼藻的生理响应

通过静态模拟实验,比较研究了不同营养水平(中营养、富营养、重富营养和Hoagland植物培养液)下培养的金鱼藻(Ceratophyllum demersum)的蛋白质、叶绿素含量,过氧化物酶(POD)及超氧化物酶(SOD)活性变化.研究发现,总N、总P的变化会影响金鱼藻的生物合成,当水环境总氮浓度低于1 mg·L^-1,总磷浓度低于0.1 mg·L^-1时,金鱼藻茎叶的叶绿素合成较低,其茎蛋白含量迅速下降.金鱼藻在富营养水平(1 mg TN·L^-1,0.1 mg TP·L^-1)下抗氧化防御酶活跃,POD、SOD活性增高.研究表明,金鱼藻较适应于富营养水环境,水体营养盐继续增加对金鱼藻有胁迫作用,过高营养盐浓度(重富营养和Hoagland 培养液)影响金鱼藻的抗逆能力.     

凉水和帽儿山地区低级溪流生境和水质状况

为研究不同植被景观土地利用下低级溪流的生境状况和水质差异,对凉水国家级自然保护区红松原始林内和帽儿山国家森林公园境内天然次生林植被和农田背景下各3条溪流生境和水质状况进行调查。对溪流生物特性（悬浮藻、附着藻）和理化性质（温度、混浊度、溶解氧（DO）、pH、NH4^＋-N、NO3^-N、PO4^3-P、总氮（TN）和总磷（11P））以及细小颗粒有机物质（FPOM）和粗大有机物质（CPOM））进行测定。研究结果表明,凉水地区原始林溪流的生境状况好于帽儿山地区的次生林,帽儿山地区农田溪流生境最差。原始林溪流具有稳定的溪底生物生活基质,稳水区和急流区均匀分布,稳水区尺度变化大,受淀积物沉降干扰小,河道较弯曲,河岸稳定,河岸植被覆盖度高;次生林溪流以急流区为主,稳定基质相对较差,并受到一定程度的淀积物沉降干扰,河岸尚稳定,有一定程度的人为干扰;农田溪流基质不稳定,受到强烈淀积物沉降影响,渠道化严重,河岸带植被严重破坏。3种景观背景下溪流总磷（11P）、溶解氧（DO）、混浊度、温度、氮磷比值（N／P）（P〈0．05）存在显著差异。原始林溪流NH4^＋、DO、TP、TN、悬浮藻浓度和pH较高、附着藻数量较多,温度较低、FPOM和CPOM的数量较少;次生林溪流的NO3^--N、N／P和TDIN较高。 浊度较低;农田溪流浊度、温度、PO4^3--P较高,DO和pH较低,附着藻数量较少。景观尺度上的土地利用对溪流生境具有深刻的影响,同时决定溪流的水质状况。     

Potential of constructed wetlands in treating the eutrophic water: evidence from Taihu Lake of China

Three parallel units of pilot-scale constructed wetlands (CWs), i.e., vertical subsurface flow (VSF), horizontal subsurface flow (HSF) and free water surface flow (FWS) wetland were experimented to assess their capabilities in purifying eutrophic water of Taihu Lake, China. Lake water was continuously pumped into the CWs at a hydraulic loading rate of 0.64 m d(-1) for each treatment. One year's performance displayed that average removal rates of chemical oxygen demand (COD), ammonia nitrogen (NH(4)(+)-N), nitrate nitrogen (NO(3)(-)-N), total nitrogen (TN) and total phosphorous (TP) were 17-40%, 23-46%, 34-65%, 20-52% and 35-66%, respectively. The VSF and HSF showed statistically similar high potential for nutrients removal except NH(4)(+)-N, with the former being 14% higher than that of the latter. However, the FWS wetland showed the least effect compared to the VSF and HSF at the high hydraulic loading rate. Mean effluent TP concentrations in VSF (0.056 mg L(-1)) and HSF (0.052 mg L(-1)) nearly reached Grade III (0.05 mg L(-1) for lakes and reserviors) water quality standard of China. Wetland plants (Typha angustifolia) grew well in the three CWs. We noted that plant uptake and storage were both important factors responsible for nitrogen and phosphorous removal in the three CWs. However, harvesting of the above ground biomass contributed 20% N and 57% P of the total N and P removed in FWS wetland, whereas it accounted for only 5% and 7% N, and 14% and 17% P of the total N and P removed in VSF and HSF CWs, respectively. Our findings suggest that the constructed wetlands could well treat the eutrophic lake waters in Taihu. If land limiting is considered, VSF and HSF are more appropriate than FWS under higher hydraulic loading rate.