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1.
《Limnologica》2020
We aimed to demonstrate different input of organic and inorganic carbon, nitrogen and phosphorus from three main groups of primary producers (phytoplankton, charophytes and vascular submerged macrophytes) to respective lake sediments. Studies were carried out in one eutrophic and two mesotrophic lakes. Samples of sediments were taken from profundal and from littoral zones, the latter divided into such overgrown by charophytes and others covered by vascular submerged macrophytes. We applied a stoichiometric approach to illustrate variable functional carbon to nutrients relationships. Among profundal sediments, the lowest organic to inorganic carbon ratio was found in sediments from the eutrophic lake due to precipitation of calcium carbonate during algal blooms. Extremely low inorganic carbon input to profundal sediment of one of the mesotrophic lakes may be explained by low phytoplankton production but also by dissolution of once deposited calcium carbonates. Charophyte-dominated littoral sediments contained significantly more inorganic carbon than other littoral and profundal sediments. Comparison of stoichiometric ratios between plant standing crop and underlying littoral sediments showed significant enrichment of sediments in nitrogen manifested by reduction of organic carbon to total nitrogen ratio during plant decomposition taking place both in charophyte and in vascular plant stands. We also attempted to divide phosphorus pool in sediments into organic P and calcium-bound P present in charophyte stands and in profundal sediments of eutrophic lake. In the former, calcium-bound P was estimated at 17–19 % of the total P pool while in profundal sediments it amounted 42 % of the total P. This difference suggests that calcium carbonate settling during algal blooms in a eutrophic lake may be more effective in P trapping than calcite encrustations covering charophyte plants in littoral sites. In conclusions, we underline the need of considering often neglected inorganic fractions of carbon and phosphorus to get better insight into carbon and nutrient burial in lake sediments. 相似文献
2.
R. K. Singh 《洁净——土壤、空气、水》1987,15(6):641-646
The study of the soil and water of the beel indicated that the sectors' content of organic carbon, nitrogen, phosphorus, potassium and iron was dependent on the seasons. The soil was acidic in nature with a high content of organic carbon, nitrogen, potassium and iron and a low content of phosphorus. Air and water temperatures, pH, D.O. and oxygen saturation percentage increased during day hours and decreased during night hours. Carbon dioxide was high during night hours. The water temperature showed a positive correlation with air temperature, pH, D.O., bicarbonate and oxygen saturation percentage and a negative one with carbon dioxide. The plankton population showed an inverse relationship with phosphorus. 相似文献
3.
基于2018—2019年的周年调查,分析了滆湖总悬浮物(TSS)的时空分布特征、组成及其季节变化规律,并探讨了水体悬浮物的影响因素及其与氮、磷的关系.结果表明:(1) TSS浓度的年内变化范围在11.80~105.87 mg/L之间,平均浓度为41.87±18.09 mg/L.(2)滆湖水体TSS时空差异显著.空间上呈现高速公路以南湖区(B区)大于高速公路以北湖区(A区),沿岸高于湖心区的分布趋势;季节变化整体表现为:夏季 > 秋季 > 春季 > 冬季,且夏季显著高于其他季节.(3)滆湖水体中无机悬浮物(ISS)和有机悬浮物所占TSS的比例差异悬殊,分别为75.5%和24.5%,A区和B区均以ISS为主.(4)线性拟合表明,TSS与颗粒态氮、总磷和颗粒态磷具有极显著正相关关系;(5) TSS与叶绿素a浓度相关性极显著.综合结果分析,藻类暴发和泥沙再悬浮是影响滆湖水体悬浮物浓度的重要因素. 相似文献
4.
藻类生长与营养盐浓度存在藻类几何级数增长的营养盐浓度变化的下限阈值和藻类生长不受氮磷浓度增加影响的上限阈值,但由于蓝藻水华的形成受多种因素的综合影响,不同湖泊、不同区域及不同时段的氮磷浓度对蓝藻水华的影响差别较大,使得蓝藻生长的氮磷控制阈值难以确定.针对控制蓝藻水华暴发的氮磷阈值的研究虽然有所开展,但多集中在实验室研究阶段或对经验值的判断,虽然也有基于野外实测数据的研究,但也限制于某一特定区域,而基于野外长序列实测数据并且覆盖整个湖泊的氮磷阈值研究则是空白.太湖作为具有较高营养背景的富营养化浅水湖泊,蓝藻水华的发生受氮磷影响较大.对太湖总磷(TP)、总氮(TN)和叶绿素a(Chl.a)浓度的时空变化分析发现,太湖西北湖区的TP、TN与Chl.a浓度明显较高,并且TP、TN与Chl.a均呈显著性正相关.为探究太湖蓝藻水华暴发的TP和TN控制阈值,以轻富营养化等级下的Chl.a分级标准(10,26]作为表征水华暴发的条件,采用郑丙辉等的频率分布法,确定了太湖蓝藻水华暴发的TP和TN控制阈值分别为0.05~0.06和1.71~1.72 mg/L;通过空间验证,太湖藻型区TP和TN浓度远高于同级营养水平下全湖区TP和TN控制阈值,表明藻型区高氮磷水平为蓝藻水华发生提供充足营养盐条件,即使氮磷全湖平均浓度控制在蓝藻水华暴发的氮磷阈值水平之下,但在气象水文等因素适宜条件下,藻型区水华发生风险仍然较高;并且在高氮磷背景下,即便在水华发生风险低的季节,水华发生风险仍然较大.近十几年来,虽然太湖经历了大规模的高强度治理,但由于环太湖流域的湖西区入湖负荷占比大,导致太湖藻型区氮磷浓度仍处于高位运行状态,为蓝藻水华的暴发提供了充足的营养盐基础,因此,湖西区的控源减排仍然是太湖富营养化及蓝藻水华防控的重点. 相似文献
5.
为探究洪泽湖入湖河流沉积物有机磷的空间分布及外源输入对其形态转化的影响,本文利用Ivanoff法开展有机磷形态特征研究,并通过实验室添加常见外源有机质和铁离子,深入探讨外源物质对沉积物有机磷形态变化的长期影响.研究结果表明,洪泽湖入湖河流沉积物有机磷含量范围为34.8~398.6 mg/kg,占总磷的7.7%~36.9%,其中非活性有机磷(NOP)中活性有机磷(MLOP)活性有机磷(LOP).濉河沉积物LOP平均占比为19.4%,高于其他河流,而成子河NOP平均占比最高,为56.41%,表明有机磷的空间分布不均匀.总体而言,安河和濉河沉积物中总氮、总磷和有机磷含量显著高于成子河和淮河,显示前两条河流有较高的污染水平.冗余分析表明河流沉积物有机磷形态明显受到其理化性质影响,而不同污染程度沉积物的影响因素有所不同.外源物质添加能够活化沉积物的有机磷,促使NOP向LOP和MLOP转化,有机质输入引起的沉积物有机磷形态变化要大于铁元素输入,而外源物质输入对污染较重河流沉积物的有机磷转化作用更为显著.因此,减少入湖河流周边的外源污染排放是减少湖泊生物可利用磷的有效途径. 相似文献
6.
J. D. H. Williams J. -M. Jaquet J. -P. Vernet 《Aquatic Sciences - Research Across Boundaries》1978,40(2):361-373
The effect of discharges from two sewage treatment plants located on the northern shore of lake Geneva on surrounding sediments
was investigated.
Four forms of phosphorus were analyzed, together with extractable iron and organic carbon. Areal distribution of the parameters
and correlation analysis show that the sewage treatment plant at Vidy discharges into the lake significant amounts of phospho-ferric
precipitate. The influence of the other plant at Morges is more discrete, but its extent can be traced by the areal distribution
of the ratios [Feextr.]/[non-apatite inorganic P] and [organic carbon]/[organic phosphorus].
相似文献
7.
太湖水体磷浓度与赋存量长期变化(2005-2018年)及其对未来磷控制目标管理的启示 总被引:7,自引:6,他引:1
为揭示大型浅水湖泊水体磷浓度对湖泊外源负荷削减和生态系统变化的响应规律,指导富营养化湖泊水生态修复和管理实践,利用太湖湖泊生态系统研究站20052018年连续14年的太湖水体各形态磷浓度的月、季度调查数据,估算了太湖湖体各形态磷赋存量的季度变化,分析了太湖水体磷浓度受湖泊水位、水量、蓝藻水华态势(蓝藻总生物量及水华出现面积)等环境条件变化的影响特征.结果表明,在连续10年的全流域高投入污染治理背景下,太湖水体总磷浓度仍未发生显著下降,水体各形态磷浓度在年际、月际及空间上的变幅大,不同季节和不同湖区总磷浓度的时空差异性大于14年来总磷浓度年均值的差异性;全湖32个监测点上、中、下3层混合样水体总磷平均值为0.113 mg/L(n=1788),其中颗粒态磷浓度平均值为0.077 mg/L,是水体总磷的主要赋存形式,溶解性总磷浓度平均值为0.036 mg/L,其中反应性活性磷浓度平均值为0.015 mg/L,占总磷浓度的13%;太湖水体总磷的赋存量介于410~1098 t之间,56个季度的平均值为688 t,其中冬季(122月)、春季(35月)、夏季(68月)、秋季(911月)平均值分别为683、604、792和673 t,夏季湖体磷赋存量明显高于其他季节.统计分析表明,蓝藻水华态势和水情要素(水位)对水相总磷、颗粒态磷等主要形态磷的赋存量影响显著,蓝藻水华态势的影响可能大于水量变化的影响.本研究表明,在水体营养盐浓度仍然充分满足蓝藻水华发生的背景下,气象水文波动所造成的湖泊水华面积及生物量的变化及大型水生植被消长带来的内源交换变化能引起水体总磷浓度剧烈变化,太湖水体磷浓度的稳定控制也依赖于蓝藻水华态势的稳定控制,由于太湖当前的蓝藻水华态势受气象水文条件变化影响甚大,短期内太湖水相总磷浓度稳定控制到0.05 mg/L的水质治理目标较难实现.治理策略上,若要实现太湖水体磷浓度的进一步明显下降,一方面需要大幅度削减外源磷负荷,另一方面需要大面积恢复沉水植被等.管理策略上,由于湖体磷浓度变化包括了较大的非人为因素影响,应将太湖总磷治理目标考核重点放在流域磷减排强度、入湖负荷等方面,科学看待气候波动等非人为因素影响下的水相磷浓度波动. 相似文献
8.
梯级筑坝对河流水环境演化的影响是国内外关注的热点.小型山区河流高密度梯级开发对水体生源要素的空间格局以及水环境演化的累积影响特征尚不清楚.以重庆市五布河为研究对象,对流域内8个“河流-水库-下泄水”交替系统中表层水体理化因子及碳(C)、氮(N)、磷(P)形态组成进行季节性监测,探讨了梯级筑坝对小型河流生源要素空间格局及水体富营养化风险影响的累积特征及驱动机制.结果表明:梯级水电开发对五布河流域水生生境和生源要素空间分配的影响具有潜在的累积效应,各库区水体碳氮磷浓度均呈逐级增加的空间规律;水库段的有机碳及不同形态的氮、磷浓度均高于入库河流,因此水体养分浓度呈现出河段尺度(即单个河流-水库-下泄水系统)和流域尺度(即上游至下游)耦合的空间变异模式.上游水库中溶解性氮、磷的再释放及下泄输移能够补给下游库区,加之下游水库泥沙对氮、磷的吸附-沉积作用的减弱,导致水体氮、磷总量及溶解性氮、磷的占比沿程增加,呈现梯级筑坝对水环境演化的累积影响.梯级筑坝影响下河流碳氮磷总量的相关性减弱,而溶解性养分间的相关性增强,形成了特殊的养分协同演化;水库群之间水力滞留时间的差异与水体碳氮磷浓度具有较好的线性关系,是影响流域养分分配的关键因素.五布河流域水体均为高富营养化风险,由于梯级筑坝下水体溶解性养分的逐级增加,下游水库水华风险更大;水力滞留时间与水体富营养化指数及叶绿素a浓度呈显著正向关,结合氮磷比特征的分析,本研究认为外源磷输入控制及水力滞留时间的调节是五布河梯级水库富营养化防控的有效途径. 相似文献
9.
10.
Helmut Weissert 《Surveys in Geophysics》1989,10(1):1-61
Today's disturbance of the global carbon cycle induced by anthropogenic processes has raised new interest in the history of the global carbon cycle and its relationship to climate and other geochemical cycles. Carbon-isotope stratigraphy proves to be most useful as a monitor of the history of the carbon-cycle during the last 200 million years. In the introductory paragraphs of this review the mode of functioning of the global carbon-cycle is summarized and the connection between carbon-cycle and carbon isotope geochemistry is documented. A case study on the disturbance of the global carbon cycle during the Aptian-Albian is presented. The disturbance of the carbon cycle lasting up to millions of years is recorded in the carbon-isotope stratigraphy of pelagic sediments. It is superimposed on high frequency sedimentological cycles, related to climate and oceanographic cycles of 20, 40 or 100 ky duration. The data reviewed suggest that the change in the global carbon system was linked to a global acceleration of geochemical cycles triggered by a long-term change in atmospheric CO2 controlled by the rate of sea-floor formation and by volcanic activity. Increased accumulation rates of terrestrial material and terrestrial organic matter in marine sediments may be used as an indicator of an intensified hydrological cycling resulting in higher water-discharge rates. An intensification of the Aptian-Albian water cycle is further reflected in continental sediments monitoring a period of elevated humidity. An increase in water discharge rates should have affected the transfer rate of dissolved nutrients from continents to oceans. Elevated concentrations of phosphorus may have led to an increase in Aptian-Albian oceanic productivity enhancing the transfer of marine organic matter from the oceanic into the sedimentary reservoir. Increased productivity, increased bulk sedimentation rates and poorly oxygenated deep-water led to increased preservation of marine and terrestrial organic matter in marine sediments. The accelerated output of marine organic carbon from the oceanic reservoir is ultimately registered in the positive carbon-isotope excursion of the marine carbonate carbon-isotope stratigraphy. 相似文献
11.
Su Mei Liu Bing De Zhu Ying Wu Bing Deng Guan Qun Liu Jing Ling Ren 《Marine pollution bulletin》2010,60(9):1591-1599
Inorganic or bulk organic chemical indicators, including organic carbon (OC), total nitrogen, organic nitrogen (ON), fixed ammonium (Nfix), exchangeable ammonium, exchangeable nitrate, organic phosphorus (OP), inorganic phosphorus (IP), and biogenic silica (BSi), were examined in a 3-m core collected in Jiaozhou Bay (JZB) to decipher how the environment has changed during the preceding two centuries of increasing anthropogenic influence in this region. Concentrations of BSi, OC, and OP reveal overall increases to ca.30 cm (∼1984), then decreased toward the surface, probably reflecting a decrease in the productivity of overlying waters since 1984. Aquaculture might play an important role in the decrease of nutrient elements in the upper layers recorded in sediments. The decreased molar BSi/OC ratios upcore may be due to a change in dominance from large- to small-sized diatoms, as shown in other research. However, the shift may also be related to changes from heavily-silicified to lightly-silicified diatoms or to non-siliceous forms such as dinoflagellates. ON concentrations increased towards the surface sediment, which is most likely consistent with the increase in fertilizer application and wastewater discharge. Concentrations of IP, total P, and Nfix all decreased conspicuously upcore at 41 cm depth (∼1977), and were largely consistent with the decrease in rainfall and freshwater discharge to JZB. Our data suggest that the environment has significantly changed since the1980s. Anthropogenic activities in the watersheds may exert a substantial influence on carbon cycling processes in estuaries and potentially the coastal ocean. 相似文献
12.
氮、磷浓度对太湖水华微囊藻(Microcystis flos-aquae)群体生长的影响 总被引:5,自引:2,他引:3
大量微囊藻群体的形成和聚集是微囊藻水华形成的重要条件.氮、磷浓度是影响微囊藻群体生长的重要因素之一.为了探讨氮、磷浓度对微囊藻群体生长的影响,本研究以太湖微囊藻水华优势种之一的水华微囊藻作为研究对象,开展了不同氮、磷浓度对水华微囊藻群体生长的影响研究.以近几年太湖微囊藻水华暴发最严重的梅梁湾氮磷比的平均值作参考,氮、磷浓度设置为5个水平组,依次是T1(TN=0.1 mg/L,TP=0.005 mg/L)、T2(TN=1 mg/L,TP=0.05 mg/L)、T3(TN=10 mg/L,TP=0.5 mg/L)、T4(TN=100 mg/L,TP=5 mg/L)和T5(TN=250 mg/L,TP=5.44 mg/L)(BG-11培养基中氮、磷的浓度).结果显示,T1、T2、T3和T4 4组微囊藻群体均增大,且都发现有大于100个细胞的群体形成,群体大小分别为151、217、437和160 cells,而T5组微囊藻群体实验初期增大,实验后期变小,T5整个实验期间未发现有大于100个细胞的群体形成.研究结果表明相对低的氮、磷浓度有利于水华微囊藻群体的生长,而过高的氮、磷浓度则会抑制微囊藻群体生长.本研究结果也表明目前太湖氮、磷浓度有利于水华微囊藻群体的生长,从而有利于微囊藻水华形成. 相似文献
13.
The availability and partition of nitrogen (N) and phosphorus (P) in inorganic and organic compartments, as well as their stoichiometric ratio, are influenced by both physical and biological forcing factors. On this basis, the temporal and spatial dynamics in N:P atomic ratios in different compartments may provide information on the functioning of marine ecosystems. Here we explore the relative importance of water temperature, river inputs, wind mixing, stratification, ingression of nutrient-depleted Eastern Adriatic Current and phytoplankton biomass on concentrations and ratios between nitrogen and phosphorus in a semi-enclosed bay (the Gulf of Trieste), using data from monitoring programs carried out during 8 years. Water samples are first classified in 6 water types based on N:P ratios in different components, and then relationships between water type space-time distribution and a set of forcing factors is sought. Results show that the gulf is characterised by relatively stable N:P ratios in all compartments (about 23-26), always exceeding the classical Redfield ratio. In the surface layer, however, nitrogen and phosphorus dynamics are decoupled because of river input and plankton productivity, and a significant spatial and temporal variability is observed in terms of stoichiometric balance, nutrient concentrations and partition among the different pools. Deviations from stable N:P ratios follow a seasonal evolution. In spring, continental inputs alter inorganic nutrient compartments (N:P up to 115); later on, during the seasonal succession of biological processes (e.g. late spring phytoplankton blooms, summer increase in microbial activities and autumn phytoplankton blooms), a change is also seen in the organic dissolved and particulate pools. Multivariate statistical analysis suggests that, among the considered forcing factors, the most relevant in modulating the N:P stoichiometry in the Gulf of Trieste are river inputs and ingression of the Eastern Adriatic Current (acting in opposite directions) along with phytoplankton dynamics. During the whole period, besides variations in N:P stoichiometry, in the Gulf of Trieste dissolved organic matter represents the largest pool of N and P, which can provide a source of nutrients for the planktonic community alternative to inorganic nutrient. 相似文献
14.
The Arctic has become a sink for persistent organic pollutants (POPs) originating from lower latitudes, and relatively high levels have been found in different biota. Recent studies have identified detrimental effects on wildlife including endocrine disruption, impairment of enzyme activity, and reduced immune function. The Arctic spider crab, Hyas araneus, shown interesting potential for its use as sentinel organism in polar ecosystems. This study investigated the effect of 2,2',4,4'-tetra bromo diphenyl ether (BPDE), bisphenol A (BPA), and diallyl phthalte (DPA) on H. araneus in a three weeks exposure study. Expression of multixenibiotic resistance (MXR) proteins has been studied using the C219 monoclonal antibody which allows identifying an immunoreactive protein of 40 kDa in the digestive gland while no such protein could be observed in the gills. Expression of this protein was increased by exposure to DPA (+75%; p<0.05, n=10). All compounds significantly affected muscle acetylcholine esterase (AChE) activity (p<0.05, n=10) with 50 microg/L DPA having the strongest effect by lowering the value to 37% of control. The total oxyradical scavenging capacity measured in the digestive gland toward peroxyl, hydroxyl and peroxynitrite was also significantly reduced indicating a decreased resistance to oxidative stress generated by DPA (p<0.05, n=5). These results thus suggest the potential detrimental effects of DPA even at concentration as low as 50 microg/L on H. araneus. 相似文献
15.
拟柱孢藻(Cylindrospermopsis raciborskii)和角星鼓藻(Staurastrum spp.)是热带亚热带浮游植物群落中的常见优势种类,为了解铁对2种浮游植物季节动态和生长的影响,本文通过对典型热带水库的野外调查,分析铁与2种藻生物量和相对生物量的季节动态的关系,并通过室内实验分别以无机磷(KH2PO4)和有机磷(C6H13O9P)为磷源,比较3种铁浓度(0.029、0.29和0.689 mg/L)下拟柱孢藻(C.raciborskii,N8)和角星鼓藻(Staurastrum sp.,FACHB-1449)的比生长速率、铁载体产量和碱性磷酸酶活性的差异.结果显示,拟柱孢藻和角星鼓藻是浮游植物群落的主要优势种类,两者的生物量最大占到总生物量的82%以上;两者对环境变量响应的区别主要体现在对溶解性铁浓度变化的响应差异上,拟柱孢藻生物量与溶解性铁有显著的线性回归关系,但角星鼓藻的生物量与铁没有显著线性回归关系.室内实验中,拟柱孢藻N8的比生长速率在无机磷源铁浓度为0.689 mg/L条件下最大,为0.098±0.01 d-1,2种磷源条件下比生长速率均随铁浓度降低而显著降低,6个实验组均检到铁载体:6个实验组角星鼓藻FACHB-1449的比生长速率没有明显差异,平均为0.079±0.001 d-1,均未检出铁载体,磷源和铁浓度对其比生长速率的影响不显著;有机磷源条件下,拟柱孢藻N8实验组碱性磷酸酶活性均显著高于角星鼓藻FACHB-1449实验组,拟柱孢藻N8实验组酶活性随铁浓度降低而显著降低,但角星鼓藻FACHB-1449各实验组的碱性磷酸酶活性无明显差异.以上结果表明,水体中溶解性铁的供应对拟柱孢藻的种群动态和优势有重要作用,与角星鼓藻相比,拟柱孢藻的生长更易受到铁的限制,尤其在无机磷缺乏、磷源主要以有机磷形式供应时,铁对拟柱孢藻生长的限制作用增强. 相似文献
16.
An estimated 666,000 ha of acid sulfate soils (ASS) occur within the Great Barrier Reef (GBR) catchments of Queensland, Australia. Extensive areas have been drained causing acidification, metal contamination, deoxygenation and iron precipitation in reef receiving waters. The close proximity of ASS to reef waters makes them a substantial threat to water quality. Another important issue linked with ASS is their release of soluble iron, which is known to stimulate nuisance marine algal blooms, in particular Lyngbya majuscula. Known blooms of the cyanobacteria in reef waters have been confirmed at Shoalwater Bay, Corio Bay, the Whitsunday area and Hinchinbrook Channel. Acid sulfate soils are intimately related to coastal wetland landscapes. Where landscapes containing ASS have been disturbed (such as for agriculture, aquaculture, marinas, etc.) the biodiversity of adjacent wetlands can be adversely affected. However, there is no clear knowledge of the real extent of the so-called "hotspot" ASS areas that occur within the GBR catchments. Management of ASS in reef catchments has benefited from the implementation of the Queensland Acid Sulfate Soils Management Strategy through policy development, mapping, training programs, an advisory service, research and community participation. However, major gaps remain in mapping the extent and nature of ASS. Areas of significant acidification (i.e. hotspots) need to be identified and policies developed for their remediation. Research has a critical role to play in understanding ASS risk and finding solutions, to prevent the adverse impacts that may be caused by ASS disturbance. A case study is presented of the East Trinity site near Cairns, a failed sugar cane development that episodically discharges large amounts of acid into Trinity Inlet, resulting in periodic fish kills. Details are presented of scientific investigations, and a lime-assisted tidal exchange strategy that are being undertaken to remediate a serious ASS problem. 相似文献
17.
Zhongming Zheng Shuanglin Dong Xiangli Tian Fang Wang Qinfeng Gao Peifeng Bai 《洁净——土壤、空气、水》2009,37(3):218-224
Sediment samples were collected from three seawater aquaculture ponds, and soil characteristics, sediment oxygen consumption (SOC), dissolved organic carbon (DOC) and nutrient fluxes were measured using chamber incubations at laboratory. The three ponds were each representing a specific monoculture or polyculture model of sea cucumber. Total organic carbon (TOC) and total nitrogen (TN) contents in the dry sediment ranged from 0.14 to 0.26% and 0.022 to 0.037%, respectively. Total phosphorus (TP) contents in the sediment were more spatially and temporally variable. SOC ranged from 15.29 to 45.86 mmol m–2 d–1 and showed significant differences among the three ponds (p < 0.05). TOC, total carbon (TC) contents, and SOC of the sediment in the pond polycultured with jellyfish increased with culture time, indicating that jellyfish farming enhanced the accumulation of organic matter in the sediments to some extent. Sediment showed net nitrate and ammonium uptake in most ponds and months, and significant differences were found among months (p < 0.05). Dissolved inorganic phosphate (DIP) was released from the sediments in all ponds with low flux rates. DOC was released from the sediment in all ponds and ranged from 0.67 to 1.74 g DOC m–2 d–1. The results suggested that non‐artificial‐feeding sea cucumber culture ponds could not only yield valuable seafood products, but also effectively remove nutrients from the aquaculture systems and consequently alleviate nutrient loadings of the nearby coast. 相似文献
18.
城市湖泊富营养化问题日趋严峻,以往对水华的研究多集中于大型自然淡水湖库,而对小型城市浅水湖泊的水华动态相对较少.以宁波月湖为研究对象,探讨水华暴发期间浮游植物变化特征及与影响因子之间的关系,以期判别影响城市湖泊水华的主控因子.月湖水华期间营养盐水平处于中富营养至极端富营养之间,此次共检出浮游植物8门61属,藻种组成以绿藻门(51.79%)和硅藻门(21.43%)为主,各点位浮游植物生长主要受水温、光照驱动,经历了隐藻门→硅藻门→绿藻门→蓝藻门的演替.水华种为雷氏衣藻(Chlamydomonas reinhardtii),总藻密度最高达到1.55×108 cells/L,水华暴发后各点位衣藻属比例升高(最高达到81.10%),群落结构呈现单一化特征.通过Pearson相关性分析和RDA分析发现衣藻属生长与水温、pH、总磷浓度均呈显著正相关,春季气温回升、天气持续晴好,城市浅水湖泊高营养盐负荷、水体流动性差等特点为带鞭毛的衣藻属提供了适宜的生存条件,在环境条件均适宜的情况下拥有最大生长潜力的衣藻属在营养盐、光照等竞争中生长速率明显优于其他藻种,从而发生绿藻水华. 相似文献
19.
Thermal stability of soil organic carbon subjected to water erosion as a function of edaphic factors
Zhongwu Li Linhui Xiao Chuxiong Deng Zaijian Yuan Chen Liang Qian Xiong Zeting Li Xiaodong Nie 《国际泥沙研究》2022,37(1):26-36
The stability of soil organic carbon (SOC),as it relates to resistance to decomposition,is important for greenhouse gas emission and climate change.However,the SOC stabilization and its related influencing factors subjected to water erosion remain uncertain.The objective of the current study was to determine the SOC stability under long-term water erosion and to investigate the link between SOC stability and edaphic factors.Soil samples from eroded,depositional,and control sites in a closed wate... 相似文献
20.
湖北浮桥河水库悬浮物的季节变化 总被引:1,自引:1,他引:0
1998-1999年按季度对湖北浮桥河水库悬浮物进行采样和分析.浮桥河水库悬浮物现存量干重平均为9.991mg/L,有机碎屑是水库悬浮物的主要组成部分,占93.22%,浮游生物仅占6.78%.悬浮物的无灰重为3.45mg/L,其中有机碎屑无灰重的比例占85.54%,浮游生物无灰重占14.46%.悬浮物碳为1.539mg/L,其中有机碎屑碳占81.46%,浮游生物碳占18.54%.浮桥河水库悬浮物氮、磷含量分别为0.257mg/L和0.0143mg/L,其中有机碎屑氮、磷分别为0.200mg/L和0.0072mg/L;浮游生物氮、磷分别为0.057mg/L和0.0071mg/L.悬浮物可作为判断水库营养类型的指标,同时也可用来估算水库滤食性鱼类的鱼产潜力. 相似文献