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1.
内陆水体是大气CO2收支估算的重要组成部分。农业流域分布着大量池塘景观水体,且具备蓄洪抗旱、消纳污染、水产养殖等多种功能。但是,农业流域不同功能的小型池塘CO2排放特征尚不清楚。本研究以极具农业流域代表性的烔炀河流域为研究对象,选取流域中用于水产养殖(养殖塘)、生活污水承纳(村塘)、农业灌溉(农塘)、蓄水(水塘)的4个功能不同的景观池塘,基于为期1年的野外实地观测,以明确农业流域小型池塘CO2排放特征。结果表明,不同功能池塘水体CO2排放差异显著,受养殖活动、生活污水输入和农田灌溉等人类活动影响,养殖塘((80.37±100.39) mmol/(m2·d))、村塘((48.69±65.89) mmol/(m2·d))和农塘((13.50±15.81) mmol/(m2·d))是大气CO2的热点排放源,其CO2排放通量分别是自然蓄水塘((4.52±23.26) mmol/(m2·d))的18、11和3倍。统计分析也表明,该流域池塘CO2排放变化总体上受溶解氧、营养盐等因素驱动。4个不同景观池塘CO2排放通量全年均值为(37.31±67.47) mmol/(m2·d),是不容忽视的CO2排放源,其中养殖塘和村塘具有较高的CO2排放潜力,在未来研究中需要重点关注。 相似文献
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湖、库水体是重要的N2O排放源,在全球氮素循环及全球气候变化中具有重要作用.本文综述了目前有关湖、库水体N2O排放研究进展,重点介绍湖、库水体N2O产生和排放的过程、不同时空尺度的排放特征、N2O排放的影响因子框架及监测方法.湖、库水体N2O不仅源于内部微生物硝化作用、反硝化作用、硝化-反硝化耦合作用、脱氮作用以及极少数底栖无脊椎动物代谢过程,同时流域上游河流汇入、地表径流输入、污水排放以及地下水排泄等构成湖、库水体N2O的重要外源,但目前对内源/外源的相对贡献的定量化研究不足;湖、库水体N2O排放方式包括扩散、植物传输及少量气泡排放,对水库而言,大坝下游水电涡轮机形成的脱气作用可能是N2O排放的潜在途径.对文献综合分析表明,湖、库水体N2O排放通常呈现明显的季节变化(夏季>冬季)和日变化,同时在全球(一般低纬度>高纬度)、区域及水体内部等不同尺度上表现出显著的空间变异性;这种时空变异特征主要受到湖、库自身理化因子(温度、营养盐、溶解氧、C/N、水文)、生物因子(水生植物、藻华)以及陆域人类活动(污水排放、农业活动以及城市化等)的影响;湖、库N2O排放不同监测方法的差异也是潜在的影响因素,传统的漂浮箱法和薄边界层法均可能低估水体N2O排放通量,未来需将传统的监测方法与新型的涡度相关法相结合,减小监测方法的不确定性.结合当前湖、库水体N2O排放的研究不足,建议未来可以从湖、库N2O产生的微生物机制,区域尺度上人类活动与湖、库群N2O排放的耦合关系,水陆交错带的产、排过程,变化环境下的湖、库N2O排放以及监测方法等方面深入研究. 相似文献
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模型估算法是水-气界面甲烷(CH4)通量监测的主要方法.本研究选择6种不同的参数化模型方法估算了2015年6、8和10月两个亚热带河口养殖塘水-气界面CH4传输速率(kx)及其扩散通量,探讨了河口养殖塘kx及CH4扩散通量的变化特征和影响因子.结果表明:研究期间,不同模型估算下的kx及其扩散通量均值在闽江河口养殖塘变化范围分别为1.60±0.75~6.29±1.30 cm/h和9.19±2.67~30.64±6.28 μmol/(m2·h),在九龙江河口养殖塘的变化范围分别为0.89±0.19~6.07±0.61 cm/h和3.18±0.48~21.03±2.13 μmol/(m2·h);kx及其扩散通量在两个河口区均呈现随时间推移而升高的特征;整个养殖期间,养殖塘水-气界面平均CH4传输速率kx呈现闽江河口略高于九龙江河口(P>0.05),但水-气界面平均CH4扩散通量呈现闽江河口显著高于九龙江河口的特征(P<0.05);风速、水体溶解CH4浓度和盐度是调控河口区养殖塘水-气界面CH4扩散通量变化的重要因子;不同模型估算出的河口养殖塘水-气界面CH4传输速率kx存在差异,表明模型估算法获得的水-气界面CH4扩散通量存在一定的不确定性. 相似文献
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在巢湖西北半湖近岸带设置大型围隔研究秋季连续打捞蓝藻对湖泊温室气体通量的影响,应用YL-1000型大型仿生式水面蓝藻清除设备进行原位打捞蓝藻,通过便携式温室气体分析仪-静态箱法对大型围隔内水-气界面CH4、CO2通量特征及其影响因素进行观测.结果表明:对比未打捞区,蓝藻连续打捞下打捞区水体中叶绿素a(Chl.a)、悬浮物(SS)浓度不断下降,两者削减率分别为72%、85%,Chl.a、SS浓度分别下降到29.6±2.5 μg/L、12.5±1.2 mg/L,打捞对围隔内颗粒态物质去除效果十分明显;打捞过程中水体溶解性有机物(DOM)中微生物代谢类腐殖质(C1)、类蛋白(C3)显著下降趋势,打捞区C1、C3组分(0.18±0.02、0.06±0.01 RU)强度明显低于未打捞区(0.26±0.05、0.12±0.03 RU),打捞能有效控制藻源性溶解性有机质释放.同时,打捞区水-气界面CH4通量呈显著下降趋势,未打捞区CH4通量平均值(17.473±1.514 nmol/(m2·s))为打捞区(7.004±4.163 nmol/(m2·s))近2倍,CH4通量与Chl.a、C1、C3组分均呈显著正相关,水体中藻源性溶解态有机质对CH4通量具有促进作用;打捞区CO2释放通量呈显著上升趋势,打捞区CO2吸收通量(-0.200±0.069 μmol/(m2·s))明显低于未打捞区(-0.344±0.017 μmol/(m2·s)),CO2通量与Chl.a、温度均呈显著负相关.秋季打捞对CH4、CO2综合日平均通量减排量值为0.275±0.076 mol/(m2·d)(以CO2当量计).研究结果揭示了巢湖秋季连续打捞蓝藻过程对水-气界面温室气体具有显著减排作用,且能在一定程度上减缓蓝藻水华与湖泊富营养化、气候变暖之间的恶性循环,为湖泊碳循环和蓝藻水华灾害防控提供科学数据支撑和理论参考. 相似文献
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长江口崇明东滩沉积物反硝化作用研究 总被引:15,自引:0,他引:15
选择长江河口崇明岛东部潮滩为典型研究区域, 从2003年7月到2004年7月在崇明东滩(CM)进行了隔月采样, 研究表明水体自身N2O产生速率很低, 沉积物是上覆水体N2O的来源, 沉积物中N2O产生速率在-0.08~1.74 mmolN·m-2·h-1之间, 夏季是N2O产生速率较高的季节. 不同潮滩部位N2O产生速率的差异, 以及N2O产生速率与反硝化速率、温度、溶解氧的相关关系表明中潮滩(CM-2)沉积物反硝化作用可能是N2O的主要产生源, 低潮滩(CM-3)沉积物中N2O来源于氮素循环的多个反应过程. 冬季和夏季是潮滩沉积物反硝化作用较强的季节, 晚秋(11月)、初春(3月)反硝化速率相对较低, 潮滩沉积物反硝化速率季节变化较大(1.12~34.09 mmolN·m-2·h-1). 温度、溶解氧以及二者的共同作用是影响潮滩沉积物反硝化作用进行的显著因素. 相似文献
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城市湖泊不同水生植被区水体温室气体溶存浓度及其影响因素 总被引:2,自引:1,他引:1
为了解城市湖泊不同水生植被区水体温室气体的溶存浓度及其影响因素,于2015年4-11月按每月2次的频率采用顶空平衡法对聊城市铃铛湖典型植被区——菹草区、莲藕区和睡莲区表层水中CO2、CH4和N2O的溶存浓度进行监测,计算水中温室气体的饱和度和排放通量,并测定水温(T)、pH、溶解氧(DO)、叶绿素a及营养盐浓度等理化指标,以探究水体环境因子对温室气体溶存浓度的影响.结果表明,铃铛湖各植被区水体温室气体均处于过饱和状态,是大气温室气体的"源";莲藕区CH4浓度、饱和度和排放通量均显著高于菹草区,而各植被区N2O和CO2均无显著性差异;不同植被区湖水中DO、总氮(TN)、总磷(TP)和硝态氮(NO3--N)浓度具有显著差异,其中DO、TN和NO3--N浓度均表现为菹草区最高,莲藕区最低,而TP浓度则正好相反;各植被区温室气体浓度和水环境参数间的相关分析和多元回归分析的结果表明,水生植物可通过影响水体的理化性质对温室气体的产生和排放产生显著差异影响,在菹草区亚硝态氮(NO2--N)、NO3--N、T和DO是控制水体温室气体浓度的主要因子;睡莲区为TP和pH;莲藕区则为pH、NO2--N和DO. 相似文献
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反硝化作用是将氮素从湖泊中彻底去除的重要途径之一,对于减轻湖泊富营养化具有重要意义。为了探究太湖沉水植物附着生物的生物量、潜在反硝化速率变化规律及其与环境因素的关系,在沉水植物生长盛期(7月),以太湖沉水植物主要分布区域东部湖湾作为采样区域,研究了太湖常见的3种沉水植物上附着生物的生物量,并利用乙炔抑制法测定沉水植物上附着生物的潜在反硝化速率,分析了太湖沉水植物附着生物的生物量及其潜在反硝化速率的主要影响因素。结果表明,太湖常见的3种沉水植物单位体表面积附着生物的生物量(AFDM)在0.037~0.789 mg/m2之间,均值为(0.389±0.261) mg/m2,沉水植物上附着生物的生物量存在空间差异,最大值出现在贡湖湾G1采样点((0.794±0.007) mg/m2),最小值出现在胥口湾X1采样点((0.041±0.005) mg/m2)。太湖沉水植物单位体表面积附着生物的潜在反硝化速率在3.09~58.80 μmol/(m2·h)之间,均值为(24.75±5.96)μmol/(m2·h)。太湖沉水植物附着生物的潜在反硝化速率存在空间差异,其中最大值出现在贡湖湾G1采样点((58.80±20.20) μmol/(m2·h)),最小值出现在胥口湾X1采样点((3.09±1.79) μmol/(m2·h))。相同条件下,沉水植物附着生物的生物量及潜在反硝化速率因植物种类的不同而存在差异,狐尾藻(Myriophyllum spicatum)上的附着生物的生物量及潜在反硝化速率显著高于苦草(Vallisneria natans)。相关性分析结果表明,沉水植物上附着生物的生物量与水体氮磷浓度相关。沉水植物附着生物的潜在反硝化速率与附着藻类的生物量、水体溶解有机碳及pH存在显著相关关系,这3种因子可以解释81.2%的沉水植物附着生物潜在反硝化速率变化,本研究结果可为进一步研究浅水湖泊脱氮过程及富营养化治理提供一定的理论依据。 相似文献
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蓝藻对太湖底泥反硝化过程的影响和机理分析 总被引:3,自引:1,他引:2
通过模拟实验,研究了因自然或人工沉降的太湖蓝藻在厌氧条件下作为碳源对底泥微生物反硝化脱氮的促进作用.通过对底泥总氮、化合态氮素、挥发性脂肪酸(VFAs)、COD、电位和pH等指标的监测,发现藻体中大量的生物可降解碳素在厌氧消解后产生挥发性脂肪酸等一些可供反硝化菌直接利用的小分子物质,2×藻组VFAs含量可达2232.96μl/L,1×藻组可达1263.36μl/L,最高可达42.1%,为对照组(无添加蓝藻)的2.43倍,从而促进了硝态氮和亚硝态氮还原成N2和N2O的过程,提高氮素的去除率.但底泥中沉降蓝藻需要一定的降解时间,前4天添加冷冻干蓝藻粉的处理组COD降解率较低,电位处于正值,体系中产生硝态氮,随后COD持续降低,添加2×藻组COD最大去除率为42.08%,1×藻组为32.93%,对照组仅为14.46%,表明藻细胞中的碳素已开始被利用.本研究表明沉降蓝藻细胞能够为底泥中的反硝化过程提供可利用碳源,并深入揭示了沉降蓝藻作为碳源促进底泥反硝化过程的机理和对底泥中C、N的影响,为在湖泊治理中降低氮素的内源污染提供了新的科学依据. 相似文献
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为揭示冰封期氨氮(NH4+-N)在沉积物-水界面的迁移机制及内源性营养盐对全湖污染的贡献,于2018年2月初在乌梁素海湖区7个采样点采集了上覆水体与沉积物样品,得到了冰封期上覆水体与沉积物间隙水中的NH4+-N浓度,估算了沉积物-水界面NH4+-N的扩散通量.结果显示,上覆水体中NH4+-N浓度变化范围为0.55~1.60 mg/L,平均值为1.05 mg/L,0~5 cm表层沉积物间隙水中NH4+-N浓度是上覆水体中的10倍以上,其变化范围为6.64~18.63 mg/L,平均值为11.92 mg/L.估算沉积物间隙水NH4+-N向上覆水体的扩散通量为1.282~4.269 mg/(m2·d),表明在湖水冻结过程中,底泥沉积物接纳了大量的可溶性污染物成为内源污染源,会在冰封稳定期、融冰期和融冰后的一段时间内成为湖水的主要污染源. 相似文献
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悬浮物在自然水体(池塘、河流、湖泊等)中普遍存在,相较于上覆水,是微生物更为倾向的附着载体。相较于沉积物,更易获取硝酸盐,是水体反硝化发生的热点微区。悬浮物在水体中经历一系列碰撞、絮凝、溶解、离子交换、吸附解吸等物理化学过程,从而会引起颗粒物粒径、营养盐浓度等发生变化;悬浮物的沉降和再悬浮过程也会引起上覆水和沉积物之间的物质交换,并在好氧缺氧过渡过程中对氮转化造成影响,从而直接或者间接影响水体反硝化速率。本文概括了国内外关于悬浮物影响水体反硝化的研究进展和热点,总结了不同浓度、粒径、组成和种类的悬浮物对反硝化作用的影响,从溶解氧、功能微生物、无机氮、有机碳等环境因素重点归纳了悬浮物影响反硝化的过程,比较和分析了悬浮物反硝化的测定方法。结合当前悬浮物反硝化研究现状,建议未来可以从新兴污染物悬浮物、机理模型、测定方法等方面展开深入研究。 相似文献
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The determination of the coefficient of viscosity of eruptive products gives useful elements to the knowledge of possible variations of composition and physical conditions of the magmas. 相似文献
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As is known, the secular deceleration of the Earth's diurnal rotation is explained mainly by the tidal friction in the ocean. Below we consider this mechanism in some detail, taking into account also elastic deformations of the mantle under the action of ocean loading and the interaction between the tide-generating body, ocean tidal wave, liquid outer core, and solid inner core. It is shown that elastic displacements of the core-mantle boundary under the action of ocean loading are of about the same amplitude and phase as the elastic loading displacements of the Earth's outer surface. As a result, side by side with the mechanism of secular deceleration of diurnal rotation of the mantle, there are also (1) the opposite mechanism of secular acceleration of diurnal rotation of the outer liquid core and of the solid inner core and (2) the mechanism of excitation of differential rotation in the liquid core. Taking these effects into account, we compare theoretical and modern observed data on the eastward drift of the solid inner core. It is shown that the best agreement may be obtained if the turbulent viscosity of the liquid core is about 2 × 10
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Poise 相似文献
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Studia Geophysica et Geodaetica - 相似文献
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The nutations of the planets Mars andEarth are investigated and compared. Alarge number of interior structureparameters are involved in the nutationcomputations. The comparison between the observations and the computationsprovides several constraints on these parmeters andtherefore allows a better understanding of the physics of the interior of theplanet. For the Earth, the high precision of the observations of the nutationshas led to a very good determination of interior properties of the planet. ForMars, observations of nutations are not yet available, and we review how theamplitude of the Martian nutations depends on the hypotheses consideredfor its interior. Although Mars is very similar to the Earth, its interior is not well known;for example, we don't knowif its core is liquid or solid. Only if the core is liquid,the Free Core Nutation (FCN) normal mode exists and can alter the nutationswhich are close to the resonance. From the observed geoids, it is known thatboth planets are not in hydrostatic equilibrium. The departure is larger forMars than for the Earth, and consequently, the implication of considering a convective mantle instead of a mantle in hydrostatic equilibrium described byClairaut's equation for the initial equilibrium state of the planet is largeron the Martian nutations than on the Earth nutations. The consequences of theuncertainty in the core dimensions are also examined and shown to be of a veryhigh influence for Mars if the core is liquid, due to the potential changes inthe FCN resonance. The influence of the presence of an inner core, which isknown to exist for the Earth, could be more important for Mars than for theEarth if the inner core is large. Due to the presence of Tharsis on Mars, thetriaxiality of this planet has, additionally, larger effects than on Earth. 相似文献
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地震激励下处于深水中的桥墩和周围水体的相互作用将对桥梁结构的动力响应产生较大影响。首先对地震作用下水-桥墩的相互作用理论做了概括,给出了动水压力对桥墩的作用效应及各自的适用范围;对主要的三种考虑流固耦合效应的分析方法做了对比,探讨了地震作用下影响水-结构相互作用的主要因素,并对今后的研究提出了建议。 相似文献
18.
Geomagnetism and Aeronomy - The magnetic evolution of the active region of the Sun at the level of the photosphere has been studied. Magnetic synoptic maps of the 2007 Kitt Peak Observatory were... 相似文献
19.
V. E. Pavlov T. Yu. Tolmacheva R. V. Veselovskiy A. V. Latyshev A. M. Fetisova I. V. Bigun 《Izvestiya Physics of the Solid Earth》2017,53(5):702-713
Until recently, the existing data prevented the geophysicists from accurately dating the Bysy-Yuryakh stratum, which outcrops in the middle reach of the Kotuy River, constraining the time of its formation to a wide interval from the end of the Late Cambrian to the beginning of the Silurian. The obtained paleomagnetic data unambiguously correlate the Bysy-Yuryakh stratum to the Nyaian regional stage and constrain its formation, at least a considerable part of it, by the Tremadocian. This result perfectly agrees with the data on the Bysy-Yuryakh conodonts studied in this work and yields a spectacular example of the successful application of paleomagnetic studies in solving important tasks of stratigraphy and, correspondingly, petroleum geology. Within the Bysy-Yuryakh stratum, we revealed a large normal-polarity interval corresponding to the long (>1 Ma) period when the geomagnetic reversals were absent. This result, in combination with the data for the Tremadocian and Middle–Upper Cambrian sequences of the other regions, indicates that (1) the rate of occurrence of the geomagnetic reversals on the eve of the Ordovician Moyero superchron of reversed polarity was at most one reversal per Ma; (2) the superchron does not switch on instantaneously but is preceded by a certain gradual change in the operation conditions of the dynamo mechanism which, inter alia, manifests itself by the reduction of the frequency of geomagnetic reversals with the approach of the superchron. This finding supports the views according to which a process preparing the establishment of the superchrons takes place at the core–mantle boundary. 相似文献
20.
The geodynamic interpretation of the results of GPS observations among the permanently operating stations which establish the frame for defining and conserving the coordinate system and simultaneously for describing the fundamental tendencies of dynamics in the area represented by them, should be deprived of the effects of geodynamic phenomena, which can be either periodic or short-term (even non-periodic) so that secular changes may be found. Some of these influences are included in scientific processing software, others have to be modelled later. The purpose of this project is to determine the influences of the indirect effect of ocean tides and the direct deformational effect of the atmosphere on the results of GPS observations, performed at stations Pecný (Czech Republic), Wettzell (FRG) and Graz (Austria), and also for the GPS stations of the Central Europe Regional Geodynamic Project (CERGOP) in the region of Central and East Europe. On the basis of analyses and results it is possible to claim that at the present accuracy of GPS observations the influence of ocean loading and atmospheric pressure effects for geodynamic campaigns in the region of the Czech Republic is negligible. For campaigns in larger regions (i.e. Central Europe) atmospheric corrections will have to be applied to height differences. These corrections, however, due to their periodicity have negligible influence on secular changes. 相似文献