滇池湖滨带植被时空变化及其对滇池总磷浓度的影响

滇池是中国最大的高原淡水湖泊,是长江上游生态安全格局的重要组成部分。自2008年起政府在滇池湖滨带大规模退耕还草还林,以恢复滇池及其湖滨生态。湖滨带植被对滇池总磷浓度的影响是一个长期过程,需要通过遥感长时间连续监测的数据来评价。本文以滇池和滇池湖滨带为研究区,从空间分布、季节差异2个角度,结合入湖河流总磷负荷,研究2005—2018年滇池湖滨植被时空变化对滇池总磷浓度的影响。主要结论如下：① 滇池总磷浓度由湖缘向湖心逐渐降低,并且北部和南部偏高;2005—2018年,滇池总磷浓度呈现显著下降趋势;② 2011—2018年滇池总磷浓度显著减小与湖滨带植被的拦截作用密切相关;③ 2005—2018年滇池湖滨带草本和木本植物面积都显著增加,增加最剧烈的年份是2010—2011年;④ 相比于平水期和丰水期,枯水期NDVI与强影响区总磷浓度负相关关系最强,且木本植物NDVI与强影响区总磷浓度负相关性强于草本。本文利用长时间序列数据评价滇池总磷浓度与其湖滨植被的响应关系,可为滇池湖泊生态恢复提供科学依据。     

Phosphorus speciation in sediments of Lake Hongfeng, China

This study was conducted to evaluate the distribution characteristics of phosphorus and its species in 14 sediments samples collected from Lake Hongfeng based on sequential extraction. Lake Hongfeng, a major drinking-water source for Guiyang City in southwestern China, is one of the largest artificial reservoirs located in a typical karstic area of the Yunnan-Guizhou Plateau. The results of this study indicate that the average percentages of DP, Al-P, Fe-P, Ca-P and OP in the lake sediments were 0.52, 6.59,...     

Photosynthetic response of Scirpus validus and Typha orientalis to elevated temperatures in Dianchi Lake,Southwestern China

Understanding the effects of simulated warming on photosynthetic performance of aquatic plants may provide strong supports for predicting future dynamics of wetland ecosystems in the context of climate change. The plateau wetlands located in Yunnan province are highly sensitive to climate warming due to their high altitude and cold temperature. Here, we conducted a temperaturecontrolled experiment using two temperature manipulations(ambient temperature as the control and 2℃ higher than ambient temperature as the warmed treatment) to determine the photosynthetic characteristics of two lakeside dominant species(Scirpus validus Vahl and Typha orientalis C. Presl.) in Dianchi Lake. Net photosynthetic rate(P_n), stomatal conductance(G_s), intercellular CO_2 concentration(Ci), and transpiration rate of S. validus that grew under warmed treatment were all significantly higher than those under the control. Gs and Ci of T. orientalis showed similar patterns as S. validus did. For the response curves of Pn to photosynthetic active radiation(P_n-PAR) and intercellular CO_2 concentration(P_n-Ci), S. validus had higher P_n values under elevated temperatures than the control, while Pn-PAR and P_n-Ci curves of T. orientalis did not separate clearly under two temperature scenarios. Both S. validus and T. orientalis had higher maximum net photosynthetic rate, light saturation point, dark respiration rate, the maximum rate of RuBP carboxylation(V_(cmax)), maximum electron transport rate driving RuBP regeneration(J_(max)), the ratio of V_(cmax) to J_(max), triosephosphate utilization, and 1, 5-bishosphate carboxylase ribulose content under warmed treatment than those under the control. This study provides a preliminary step for predicting the future primary production and vegetation dynamics of plateau wetlands in Yunnan province.     

Total Maximum Allocated Loads on Stoichiometry of Nitrogen and Identification of Critical Form in Jiaozhou Bay,China

Total pollutant load control management for total dissolved nitrogen (TDN) is an urgent task required to gain a good water quality status in Jiaozhou Bay (     

Regime shift in Lake Dianchi(China) during the last 50 years

Lake Dianchi has undergone accelerated alternations resulting from human activities during the last 50 years, and provides an exceptional example for the study of regime shift in a shallow lake. Focusing on regime shift, we systematically studied and analysed alternations of key components of its ecosystem, including water parameters, phytoplankton and zooplankton biomass, macrophyte composition and fish populations. We found that the shifting course of Lake Dianchi went through three major phases, corresponding to three distinct states: Phase I clean, stable state during the 1950 s; Phase II transitional state during the 1970 s–1980 s; and phase III stable, turbid state since 1993. We analysed all data and samples, identifying the threshold concentrations at which regime shift occurred: total nitrogen(TN) and phosphorus(TP) reaching 1.2 mg/L and 0.13 mg/L, respectively. Results from this study strongly suggest that the increasing input of external nutrients, reclaiming land from the lake and foreign fish invasion were major inducements to the accelerated shift of Lake Dianchi to its turbid, stable state. These findings provide valuable guidelines for potential efforts to reverse this unnatural process in Lake Dianchi. The restoration may need to:(1) thoroughly and accurately identify pollution sources to control and reduce excessive external nutrients flowing into the lake;(2) return reclaimed land to the lake and recover the littoral zone to its natural state to facilitate increased restoration of macrophytes; and(3) strategically adjust fish populations by reducing benthivorous and filter-feeding fish populations that prey on zooplankton, while enlarging zooplankton populations to control phytoplankton biomass.     

基于环境CGE模型的鄱阳湖流域氮磷排放调控方案及影响模拟

本文基于我国2007年投入产出表和引力模型假设条件下的中国多区域社会经济核算矩阵(SAM)数据库,构建了可计算一般均衡理论和数学优化求解思想的环境CGE(ECGE)模型;并以鄱阳湖流域为研究案例区,设计了两种水质目标下的四种氮、磷营养盐排放调控方案,分别探讨并综合比对了其对江西省及全国其他地区经济增长的影响,为寻求实现鄱阳湖流域经济增长与入湖氮、磷营养盐减排达标的双重目标提供了决策参考信息。研究结果表明,以Ⅲ类水质为控制目标,仅对氮、磷营养盐高排放产业实施减排调控的鄱阳湖流域氮、磷营养盐排放调控方案既能满足当地人们生活改善与区域经济增长的基本要求,又能够通过排污外部成本内在化推动科技投入和生产工艺的改进以不断减少氮、磷营养盐的排放,最终实现人与自然的和谐发展。     

Contrasting patterns of free-living bacterioplankton diversity in macrophyte-dominated versus phytoplankton blooming regimes in Dianchi Lake,a shallow lake in China

Freshwater shallow lakes typically exhibit two alternative stable states under certain nutrient loadings:macrophyte-dominated and phytoplankton-dominated water regimes.An ecosystem regime shift from macrophytes to phytoplankton blooming typically reduces the number of species of invertebrates and fishes and results in the homogenization of communities in freshwater lakes.We investigated how microbial biodiversity has responded to a shift of the ecosystem regime in Dianchi Lake,which was previously fully covered with submerged macrophytes but currently harbors both ecological states.We observed marked divergence in the diversity and community composition of bacterioplankton between the two regimes.Although species richness,estimated as the number of operational taxonomic units and phylogenetic diversity(PD),was higher in the phytoplankton dominated ecosystem after this shift,the dissimilarity of bacterioplankton community across space decreased.This decrease in beta diversity was accompanied by loss of planktonic bacteria unique to the macrophyte-dominated ecosystem.Mantel tests between bacterioplankton community distances and Euclidian distance of environmental parameters indicated that this reduced bacterial community differentiation primarily reflected the loss of environmental niches,particularly in the macrophyte regime.The loss of this small-scale heterogeneity in bacterial communities should be considered when assessing long-term biodiversity changes in response to ecosystem regime conversions in freshwater lakes.     

Seasonal Dynamics of Nitrogen and Phosphorus in Water and Sediment of A Multi-level Ditch System in Sanjiang Plain,Northeast China

The multi-level ditch system developed in the Sanjiang Plain,Northeast China has sped up water drainage process hence transferred more pollutants from farmlands into the rivers of this region.Understanding the seasonal dynamics of nitrogen (N) and phosphorus (P) transportation in the ditch system and the role of different ditch size is thus crucial for water pollution control of the rivers in the Sanjiang Plain.In this study,an investigation was conducted in the Nongjiang watershed of the Sanjiang Plain to ...     

滇池污染的成因及其治理新方案

本文对滇池的污染成因进行了综合分析。滇池污染是由两大因素造成的:一是水流太慢,二是污水南侵。从这两大污染因素可以找到两大对策:一是加速湖水流动,二是阻止污水南侵。基于滇池污染实际上是北部污染南部造成的,改变滇池出水口,开挖一条新河道,让滇池水倒流,滇池从原来的下游方换到上游方,城区污水不入滇池,即使进入也能让它快速从北部流出去,北部的污染负荷很容易从北部流出去,南部高水位的水位势压力阻止了北部负荷南侵,解决了滇池污染。     

氮、磷、铁、硅对简单双眉藻生长的影响

用单因子对比实验和正交实验的方法研究了氮、磷、铁和硅对简单双眉藻生长的影响。结果表明:简单双眉藻对于硝酸钠和尿素均能很好地利用,其相对生长常数无显著差异,对柠檬酸铁和三氯化铁的利用亦无显著差异,FeC6H5O7-Fe的适宜浓度为0.1～0.5mg/L;Na2SiO3-Si的适宜浓度为0.8～1.6mg/L。正交实验表明,简单双眉藻氮、磷、铁、硅的最佳浓度(mg/L)配比为6.6∶0.66∶0.1∶0.4。     

Soil Carbon,Nitrogen and Phosphorus Concentrations and Stoichiometries Across a Chronosequence of Restored Inland Soda Saline-Alkali Wetlands,Western Songnen Plain,Northeast China

Soil carbon(C), nitrogen(N) and phosphorus(P) concentrations and stoichiometries can be used to evaluate the success indicators to the effects of wetland restoration and reflect ecosystem function. Restoration of inland soda saline-alkali wetlands is widespread, however, the soil nutrition changes that follow restoration are unclear. We quantified the recovery trajectories of soil physicochemical properties, including soil organic carbon(SOC), total nitrogen(TN), and total phosphorus(TP) pools, for a chronosequence of three restored wetlands(7 yr, 12 yr and 21 yr) and compared these properties to those of degraded and natural wetlands in the western Songnen Plain, Northeast China. Wetland degradation lead to the loss of soil nutrients. Relative to natural wetlands, the mean reductions of in SOC, TN, and TP concentrations were 89.6%, 65.5% and 52.5%, respectively. Nutrients recovered as years passed after restoration. The SOC, TN, and TP concentrations increased by 2.36 times, 1.15 times, and 0.83 times, respectively in degraded wetlands that had been restored for 21 yr, but remained 29.2%, 17.3%, and 12.8% lower, respectively, than those in natural wetlands. The soil C∶N(RC N), C∶P(R CP), and N∶P(R NP) ratios increased from 5.92 to 8.81, 45.36 to 79.19, and 7.67 to 8.71, respectively in the wetland that had been restored for 12 yr. These results were similar to those from the natural wetland and the wetland that had been restored for 21 yr(P 0.05). Soil nutrients changes occurred mainly in the upper layers(≤ 30 cm), and no significant differences were found in deeper soils( 30 cm). Based on this, we inferred that it would take at least 34 yr for SOC, TN, and TP concentrations and 12 yr for RC N, R CP, and RN P in the top soils of degraded wetlands to recover to levels of natural wetlands. Soil salinity negatively influenced SOC(r =-0.704, P 0.01), TN(r =-0.722, P 0.01), and TP(r =-0.882, P 0.01) concentrations during wetland restoration, which indicates that reducing salinity is beneficial to SOC, TN, and TP recovery. Moreover, plants were an important source of soil nutrients and vegetation restoration was conducive to soil nutrient accumulation. In brief, wetland restoration increased the accumulation of soil biogenic elements, which indicated that positive ecosystem functions changes had occurred.     

氮源、磷源及重金属离子对绿色巴夫藻生长的影响

研究了不同氮源、磷盐、不同氮磷比以及培养液中3种重金属离子含量对绿色巴夫藻(Pavlovaviridis)生长的影响。结果表明:无机氮、有机氮共同提供氮源,以及磷酸二氢钠提供磷源,氮磷比5∶1时,绿色巴夫藻生长速度最快;铅、锌、铜离子可不同程度地影响绿色巴夫藻的生长,三者的毒性依次增大,三者的96hEC50分别为25.700、7 .079和1 469mg/L。     

凡纳滨对虾池塘沉积物中氮、磷形态的赋存特征

【目的】研究凡纳滨对虾(Litopenaeusvannamei)养殖池塘沉积物中氮、磷形态的赋存特征。【方法】于对虾养殖周期的前、中和后期对池塘沉积物采样,测定和分析沉积物中各形态氮和磷含量。【结果与结论】对虾养殖池塘沉积物中总氮质量分数(1131.36±349.00)mg/kg,有机氮平均占总氮的74.14%,养殖中期总氮及有机态氮含量相对较高。无机氮主要为固定态铵,平均占75.71%,可交换态氮主要由硝态氮和氨态氮组成。总磷质量分数(854.17±254)mg/kg,主要磷形态为铁结合态磷(Fe-P)、自生钙磷(ACa-P)和闭蓄态磷(Oc-P),养殖周期内沉积物中Fe-P含量变化频繁,较活跃。垂直方向上,总氮及有机氮在次表层4～6 cm含量较高,总磷、Fe-P及Oc-P均有表层富集现象。对虾养殖过程中池塘沉积物中的氮磷总量未见明显累积,生物活性磷(BAP)在总磷中比例增加,池塘沉积物内源磷负荷加重。氮和磷分别主要以有机态氮和生物活性磷形式存在,养殖过程使沉积物中内源磷释放潜力增加。     

池塘养殖废水自由沉降及其三态氮、总氮和总磷含量变化

【目的】研究池塘养殖废水自由沉降规律及其三态氮、总氮和总磷变化情况。【方法】以池塘养殖废水为实验材料,采用静止自由沉降的处理方法,分别于不同时间(0、30、60、90、120、150 min)和不同深度(20、50、80、110、140 cm)处取样,并对废水中总悬浮物(TSS)、总氨氮(TAN)、亚硝酸盐(NO-2-N)、硝酸盐(NO-3-N)、总氮(TN)和总磷(TP)等指标进行测定和分析。【结果】20 cm取样位置处总悬浮物含量随时间延长先升高后降低,其他取样位置均呈现下降趋势,且取样位置的深度越浅,总悬浮物含量变化越快,沉降率越大。同一取样位置的总悬浮物沉降率随时间延长逐渐增大,150min后,各处的总悬浮物浓度均显著低于初始浓度(P0.05)。30min内,20和50cm处的TAN和NO-2-N浓度略有升高,其他取样位置均降低。30min后,各取样位置处TAN含量逐渐降低,120 min后开始趋于稳定,并显著低于初始水样(P 0.05);NO-2-N浓度在20和50 cm取样位置随时间延长呈现先降低后升高再降低,其他取样位置呈现逐渐下降趋势。120 min内,20 cm和50 cm处NO-3-N浓度呈现逐渐升高趋势,其他取样位置随着沉降时间的延长呈现先升高后降低的趋势。20cm处的TN和TP含量均随着时间延长先升高后降低,其他取样位置呈现下降趋势,TN于90min后趋于稳定,TP于120min后趋于稳定,均显著低于初始浓度(P 0.05)。【结论】自由沉降对养殖废水中TSS、TN、TP、TAN、NO-2-N、NO-3-N有较好的沉降作用。     

湛江湾夏季陆源入海氮磷污染物浓度、组成和通量

【目的】研究夏季湛江湾陆源溶解态氮(TDN)和溶解态磷(TDP)入海污染物浓度、组成和入海通量特征。【方法】根据2018年夏季(7月)湛江湾陆源TDN和TDP入海污染物现场调查,进行实验室分光光度法分析。【结果】湛江湾夏季陆源TDN和TDP平均浓度分别为(366.87±400.61)和(28.60±37.52)μmol/L;溶解态无机氮(DIN)和溶解态无机磷(DIP)平均浓度分别为(60.90±41.81)和(20.28±34.42)μmol/L;溶解态有机氮(DON)和溶解态有机磷(DOP)平均浓度分别为(305.97±413.96)和(8.32±13.54)μmol/L;夏季湛江湾排污口中TDN和TDP严重超标,大部分入海河口和排污口站位处于劣五类水质,主要位于南柳河、绿塘河和文保河入海河口。DON/TDN和DOP/TDP平均分别是83.4%和29.1%,DON和DIP分别是TDN和TDP的主要存在形态。TDN/TDP、DON/DOP、DIN/DIP平均分别是15.5±7.0、46.4±58.3、14.8±24.3,是导致湛江湾呈现氮限制重要原因之一。夏季湛江湾TDN、TDP输入通量分别为1617.73t和266.32t,其中遂溪河占比最高,分别为71.1%和58.8%【结论】湛江湾夏季陆源入海氮磷污染物浓度较高,氮磷比失衡,陆源污染物输入通量空间分布呈现西高东低特征,实现湛江湾近海水质根本改善必须加强陆源入海污染物控制。     

Phytoplanktonic desmids community in Donghu Lake, Wuhan,China

1 INTRODUCTION Donghu Lake (30o33′N, 114o23′E) is a shallow medium sized freshwater lake in Wuhan City, Hubei Province, China and about 5 kilometers away from the Changjiang (Yangtze) River. Before the 1960s, the water surface area was about 27.8 km2. The lake water was clear and the pH ranged from 6 to 7. The shallow area of the lake abounded with macrophytes. The phytoplanktonic and peripheral desmids were very abundant also in this lake. In the late 1960s, Donghu Lake with tota…     

大鹏湾海水中氮和磷的分布变化

依据香港特别行政区环境保护署于1999—2007年106个航次的调查资料,结合国家海洋局南海分局于1998—2007年10个航次的调查资料,简要描述和分析大鹏湾海水中可溶性无机氮(DIN)和可溶性无机磷(DIP)含量的多年平均分布变化。结果表明,DIN和DIP含量均夏、冬季较高,而春、秋季较低;受香港和深圳等陆源排放影响,四季吐露港西部和沙头角海区域的DIN和DIP含量普遍比其他区域高;夏季南澳养殖场附近水域的DIN也明显较高,可能与养殖场的饵料投放有关。大鹏湾海水中平均氮磷原子比大于16,而DIN和DIP的平均含量分别为0.069和0.009 mg/L。夏季,由于外海高盐水的入侵,底层水中DIN和DIP含量明显高于表层。9 a调查期间,大鹏湾香港海区海水中DIN和DIP含量的年际变化呈较明显下降趋势,而氮磷原子比的年际变化则呈上升趋势。     

广东流沙湾网箱养鱼区水体氮磷的时空变化及负荷估算

研究流沙湾网箱养鱼区水体氮、磷含量的月变化和水平分布,并运用质量平衡方程估算其氮、磷负荷。结果表明:总氮变化在0.212~0.892 mg/L之间,平均0.498 mg/L;总磷变化在0.009~0.036 mg/L之间,平均0.020mg/L;氮磷比变化在23.6~26.1之间,平均为25。在5-9月,氮、磷含量变化呈逐渐增加趋势,到9月达到最大,10月又减少。网箱内部氮、磷的含量高于网箱外部,并随着与网箱距离的增大而逐渐减小。红鳍笛鲷(Lutjanus argentimaculatus)、紫红笛鲷(Trachinotus ovatus)和卵形鲳鲹(Lutjanus erythopterus)全鱼的氮质量分数平均为2.42%,磷质量分数平均为0.26%,饵料系数为6.67,流沙湾网箱养鱼养殖期产生的氮、磷负荷平均分别为135.8和19.4 kg/t。     

ANNUAL LAMINATIONS IN THE SEDIMENTS OF HONGFENG LAKE, CHINA

ＡＮＮＵＡＬ　ＬＡＭＩＮＡＴＩＯＮＳ　ＩＮ　ＴＨＥ　ＳＥＤＩＭＥＮＴＳ　ＯＦ　ＨＯＮＧＦＥＮＧ　ＬＡＫＥ，　ＣＨＩＮＡＡＮＮＵＡＬＬＡＭＩＮＡＴＩＯＮＳＩＮＴＨＥＳＥＤＩＭＥＮＴＳＯＦＨＯＮＧＦＥＮＧＬＡＫＥ，ＣＨＩＮＡ￥ＷｕＦｅｎｇｃｈａｎｇ；Ｗａ...     

红海湾养殖区底质水中氮、磷的分布特征

着重研究了红海湾养殖区底质水中 NO-3 -N、NO-2 -N、NH 4-N、PO3 -4 -P、有机质及 c( NO-3 -N) /c P 和 ∑c N/c P( ∑c N=c( NO-2 ) c( NO-3 ) c( NH 4) )比值的分布特征 ,并对该湾低质水中氮、磷及有机质的季节变化及其它们之间的相互关系作了讨论 ,结果表明 :在春、夏、冬三个季节中 ,NH 4-N的浓度比NO-2 -N及 NO-3 -N高 ,春季 NH 4-N的平均浓度为 92 .60 μm ol/L,占总无机氮 80 .57% ;夏季浓度为4 7.0 4μmol/L ,占总无机氮 61 .64 % ;冬季 NH 4-N的浓度最低 ,为 9.60μmol/L ,占总无机氮 4 5.76% ;而夏季 PO3 -4 -P浓度及有机质的含量比春、冬季高 ,分别为 53 .68μm ol/L和 1 .3 62 %。分析指出该湾底质水中无机氮是以 NH 4-N为主要存在形态。