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鄱阳湖候鸟栖息地湖泊悬浮有机质的碳氮分布及来源分析——以大湖池和沙湖为例 总被引:1,自引:0,他引:1
以江西鄱阳湖国家级自然保护区的2个湖泊——大湖池和沙湖为研究对象,分析不同季节和水位悬浮有机质的碳氮稳定同位素(δ13C和δ15N)及碳氮比值(C/N)的变化特征,甄别悬浮有机质的来源.结果表明:在不同水位条件下,悬浮有机质的δ13C和δ15N均存在差异显著性.沙湖5月水位上涨时,悬浮有机质δ13C最正,均值为-26.4‰±0.9‰,10月退水后,δ13C最负,均值为-31.2‰±1.1‰.悬浮有机质δ15N值在5月和8月较低(范围为3.5‰~5.5‰),10月也相对较低,均值为6.1‰±0.6‰,而12月相对较高(7.3‰~10.8‰).悬浮有机质C/N值在10月最低,均值为6.5±0.6,小于7,与其他各月的C/N有显著差异,而其他各月C/N在7.8~8.7之间,不存在显著差异.大湖池悬浮有机质δ13C、δ15N各月的变化趋势与沙湖类似,并且两个湖泊在相同月份的δ13C、δ15N或C/N均不存在显著差异,但大湖池的δ13C和δ15N比沙湖的δ13C和δ15N均值略偏正0.1‰~0.5‰,C/N比沙湖的C/N略偏低0~0.4.有机δ13C、δ15N结合C/N示踪表明,大湖池和沙湖的悬浮有机质在5月水位上涨和8月丰水期主要来源于河流运输的土壤有机质,表层沉积物对5月悬浮有机质也有一定贡献(16%),水生浮叶植物对8月悬浮有机质有一定贡献(25%);10月秋季退水后悬浮有机质主要来源于藻类(77%),表层沉积物有一定贡献(23%);12、3和4月冬、春季枯水期悬浮有机质主要来源于表层沉积物,候鸟粪便对12月悬浮有机质有较大贡献(40%),湿地植物碎屑对3和4月有较大贡献(47%和51%). 相似文献
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湖泊沉积物有机质碳同位素因常被用于识别沉积物中有机质来源或流域植被信息而逐渐成为一个常规代用指标,但当沉积物中有机质含量变化显著、赋存状态不同时,采用统一分析方法(全样或某一粒级组分)测试的结果在不同含量或赋存状态时是否会产生偏差,目前没有详细的研究进行评价.利用嘎顺诺尔湖泊沉积物,采用全样品、细颗粒组分(过120目筛和360目筛),分别进行有机质含量和同位素分析,评价选择不同粒级样品因有机质赋存状态不同对有机碳同位素分析结果的影响.结果显示,不同组分的烧失量或元素分析仪方法测得的有机质含量变化趋势相同,但不同组分的有机碳同位素结果出现差异:全样的有机碳同位素值存在较大波动,随着过筛孔径变小,δ13Corg值波动减小,且过360目筛的细颗粒组分的碳同位素值较全样或过120目筛后组分的δ13Corg值偏负.这一差异与有机质组分赋存的颗粒范围有关.对比认为过360目筛的细颗粒组分更有利于充分反应,且可获得较为准确的同位素值.因此,在进行不同湖泊沉积物δ13Corg值对比时,应注意研究使用样品的前处理方式,相同处理方式下的结果更具有可比性.该研究结果对于湖泊沉积物有机质碳同位素分析具有参考意义. 相似文献
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人为干扰和气候变化会改变湖泊水位状态,明确不同水位条件下湖泊沉积物有机碳矿化特征及其影响因素,对了解内陆水生态系统碳循环具有重要意义.为探究干旱区典型盐湖沉积物有机碳矿化速率对水位变化的响应,以巴里坤湖干涸湖底原状沉积物为研究对象,初步探究了0(T1)、-9(T2)、-23(T3)、-34(T4)和-45 cm(T5)水位处理对沉积物有机碳矿化速率的影响.结果表明,T1、T2和T3处理有机碳矿化速率在试验初期较高(0~10 d),10 d后缓慢下降,T4和T5处理有机碳矿化速率呈先增加后降低趋势;T1(1.718 μmol/(m2·s))与T3(1.784 μmol/(m2·s))处理有机碳矿化速率不存在显著差异,T1处理有机碳矿化速率是T2、T4和T5处理的1.09、3.31和3.57倍,不同处理有机碳累积矿化量表现为T3 > T1 > T2 > T4 > T5.有机碳累积矿化量(Ct)占沉积物有机碳(C0)的比例(Ct/C0)介于0.012~0.044之间,沉积物有机碳潜在排放量(Ci)占C0的比例(Ci/C0)介于0.018~0.045之间;水位降低,沉积物有机碳矿化常数(k值)减小,T1处理k值最大(0.137 d),T4处理最小(0.032 d).线性方程Cr=0.008x+0.488能较好地模拟有机碳矿化速率(Cr)与水位(x)的关系;不同水位处理有机碳矿化速率与模拟柱中沉积物5 cm温度呈显著的指数函数关系,T4、T5处理有机碳矿化温度敏感系数(Q10)显著高于T1、T2和T3处理,即水位降低增加了巴里坤湖干涸湖底沉积物Q10.因此,就巴里坤湖干涸湖底沉积物而言,水位从0 cm降至-45 cm时有机碳矿化速率降低,Q10增加;反之水位上升则会促进有机碳矿化分解,Q10降低.水位持续下降抑制有机碳矿化可能是维持干旱区盐湖沉积物碳库稳定的机制之一. 相似文献
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富营养化对湖泊生态系统能流和物流的影响具有不确定性,多数研究仅关注富营养化对浅水湖泊食物网结构和功能的影响,而富营养化对消费者群落碳源和氮源的影响及其时空分异特征较少关注.鉴于此,本研究选取华北平原最大的浅水富营养化湖泊——白洋淀为研究区,依据生境理化参数将白洋淀划分为3类生境(生境1(Ⅰ和Ⅱ区)主要遭受上游府河废水排放影响;生境2(Ⅴ、Ⅶ和Ⅷ区)主要遭受水产养殖和生活污水的影响;生境3(Ⅲ、Ⅳ和Ⅵ区)遭受人为干扰较小).在2018年4月和8月分别收集了浮游生物、底栖生物和鱼类样品,运用碳、氮稳定同位素技术定量估算3类生境中底栖和浮游生物对消费者群落碳源和氮源贡献百分比的时空分异特征;同时收集水体和沉积物样品进行常规理化参数分析,明晰富营养化对白洋淀消费者群落碳源和氮源贡献百分比的影响.结果表明:1)就水体和沉积物理化参数季节变化而言,除pH相对稳定外,化学需氧量(COD)、沉积物氨氮(NH3-Ns)、总氮(TN)和沉积物总磷(TPs)4月高于8月,而其他理化参数则8月高于4月;就空间分布而言,温度(T)、水深(WD)、溶解氧(DO)和沉积物总碳(TCs)值在生境3中最高,而其他理化参数的值则在生境1中最高;2)就δ13C和δ15N空间分布而言,对于同一群落,δ13C和δ15N在3类生境中富集程度呈现显著差异;就时间分布而言,不同季节消费者群落的δ13C值存在显著差异,而δ15N值未呈现显著差异,且消费者群落的δ13C和δ15N呈显著负相关;3)就消费者营养级的空间分布而言,3类生境存在显著差异,同一消费者营养级在生境1中最高,在生境3中最低;就时间分布而言,消费者营养级未呈现显著差异;4)浮游生物对消费者群落碳源和氮源贡献百分比4月高于8月,生境1高于其他生境;而底栖生物对消费者群落碳源和氮源贡献百分比则8月高于4月,生境3高于其他生境;5)通过相关分析,结果表明白洋淀消费者群落的δ13C与总磷(TP)、TCs、沉积物总氮(TNs)、总有机碳(TOCs)、TPs呈现负相关关系;δ15N值与TP、TCs、TNs、TOCs、TPs呈正相关关系.因此,湖泊富营养化会影响消费者群落的碳源和氮源,进而改变湖泊生态系统的能流和物流. 相似文献
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基于内蒙古寒旱区达里诺尔湖(简称"达里湖")无河流外泄、冬季湖面冰封、水体流动缓慢等典型区域水文气象特征,对夏、冬季湖泊底层、表层水(冰)、入湖河水、浅层地下水(井水、泉水)等样品中稳定氢、氧同位素(δD、δ18O)值的变化进行对比分析,结果显示湖区不同水体δD和δ18O平均值均存在湖泊水体(水、冰体) > 大气降水 > 入湖河水 > 浅层地下水的变化特征.在达里湖,夏、冬季底层水δD、δ18O值均比表层水(含湖冰)中δD、δ18O值偏负且季节变化幅度较小.此外,冬季不同采样点底层水δD、δ18O平均值的区域差异性比夏季明显,这反映了湖泊底层水体相对封闭、稳定的储存环境,也说明地下水补给过程存在一定程度的区域差异.而基于不同区域底层水δD、δ18O值及氘盈余指数(d)值和水深变化间相互关系的分析,发现水深变化可能是影响达里湖底层水δD、δ18O值分布区域差异及补给过程的主要因素之一:东北部水体较浅(水深小于8 m)区域采样点水体δD、δ18O平均值多数比达里湖整体平均值偏负且d值偏正,指示浅层地下水输入及二次蒸发作用的影响;西南部水体较深(水深超过8 m)区域采样点水体δD、δ18O平均值多数比达里湖整体平均值偏正且d值偏负,说明水体相对稳定,受二次蒸发作用的影响较弱. 相似文献
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溶解态有机质(DOM)是湖泊沉积物的重要组分,解析DOM的组成和来源对于深入理解湖泊有机质生物地球化学循环及控制水体富营养化具有重要意义。 本研究于2021年5月和8月采集了大庆市库里泡表层及柱状沉积物、泡内水生物(浮游藻类、挺水植物和沉水植物)、岸边土壤、陆生C3和C4植物、禽畜粪便以及城镇污水等样品,分析了样品DOM的稳定同位素(δ13C 和 δ15N)组成及三维荧光光谱特征,并利用IsoSource软件计算了不同来源样品对沉积物DOM的贡献率。结果显示:(1)库里泡内表层沉积物DOM的δ13C和δ15N组成存在季节性差异,5月δ13C和δ15N均值分别为-25.54‰和9.02‰,8月分别为-26.81‰和8.40‰。(2)库里泡内柱状沉积物DOM的δ13C和δ15N组成在垂直方向存在差异,表层(0~3 cm)δ13C和δ15N均值分别为-26.58‰和9.04‰,深层(3~30 cm)均值分别为-25.40‰和10.61‰。(3)表层沉积物DOM的三维荧光组分存在季节性差异。5月以类腐殖质荧光组分为主,占比为87.89%,HIX和BIX分别为6.27和0.67;8月蛋白类荧光组分占比为49.58%,HIX和BIX指数均值分别为1.72和0.87。(4)5月表层沉积物DOM外源输入占比为61%,以土壤(21.40%)和城镇污水(18.08%)为主;而8月内源贡献占比稍高(55.10%),且以挺水植物为主(48.68%)。(5)柱状沉积物(0~30 cm)不同深度DOM来源组成相近,主要为城镇污水、沉水植物/藻和挺水植物,贡献率均值分别为42.13%、25.07%和18.53%。整体上,库里泡沉积物DOM来源主要受到流域内人类活动及气候特征的影响,本文研究结果有利于加深对我国东北地区湖泊沉积物有机质迁移转化及累积规律的认识。 相似文献
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蓝藻水华暴发形成的大量有机碎屑,沉降到沉积物表面,影响沉积物有机质矿化,进而影响碳氮磷循环.本实验选择于桥水库湖心区作为沉积物采样点,通过设置不同密度藻屑添加组(×1倍组和×20倍组)及空白对照组,研究藻屑堆积对沉积物矿化特征的影响及其环境效应,为蓝藻水华影响下的饮用水环境修复和科学管理提供一定的理论依据.结果表明:(1)藻屑添加降低了上覆水pH值,改变了沉积物生物酶活性.藻屑添加密度越大,上覆水pH值越低、波动越大,反映了培养过程异养微生物活性的变化.×1倍组的转化酶活性较高;×20倍组蛋白酶活性和碱性磷酸酶活性较高.(2)藻屑添加对沉积物的矿化途径和沉积物产物的释放速率产生了显著影响.藻屑添加密度越大,有机质矿化速率越大.其中,×1倍组主要增强好氧矿化,释放CO2;×20倍组主要增强厌氧产甲烷矿化,释放CH4.(3)不同密度的藻屑添加组,其氮磷扩散、释放通量存在明显差别.×1倍组以沉积物吸附为主,其上覆水NH4+和PO43-平均释放速率与对照组差异较小;×20倍组的NH4+在第0~10天以沉积物吸附为主,之后和PO43-均以向上覆水中释放为主,其NH4+和PO43-平均释放速率(分别为0.223)和0.075 mg/(L·d))明显大于其他实验组.因此,大量蓝藻堆积明显促进沉积物的碳氮磷矿化,释放大量CO2、CH4和氮磷营养盐至上覆水中,对湖泊水环境造成污染,为蓝藻的生长繁殖作贡献. 相似文献
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δ13C和δ15N指示不同生态类型湖泊无机氮及有机质来源 总被引:2,自引:0,他引:2
为了探讨不同生态类型湖泊(天然湖泊、城市湖泊)中无机氮和有机质来源,分别采集湖泊中水体、表层沉积物、水生植物、底栖动物进行碳、氮同位素特征分析.结果表明:蚌湖水体δ15N-NH4均值为-1.8‰±1.0‰,δ15N-NO3-均值为-0.5‰±1.7‰,说明蚌湖水体氮表现为雨水和农业肥料氮污染;象湖δ15 N-NH4+均值为6.8‰±8.6‰,其中养殖废水和管道排污口δ15N-NH4+值分别为13.5‰和25.4‰,表现出污水氮同位素特征,象湖δ15 N-NO3-均值为-2.9‰±4.2‰,是氨的硝化作用引起的氮同位素分馏所致.蚌湖表层沉积物、水生植物δ15N差别不大,分别为6.6‰±0.3‰、7.1‰±0.7‰,水生植物δ13C均值为-27.5‰±0.3‰,比沉积物δ13C偏负3‰.有机C/N为9.4±0.5,比沉积物C/N明显偏高6,反映水生植物是蚌湖有机质的主要来源.象湖表层沉积物δ15N、δ13C及有机C/N分布范围大,δ15N在3.6‰~8.3‰之间,均值为5.9‰±1.6‰,δ13C在-27.1‰~-24.7‰之间,均值为-26.0‰±1.0‰,有机C/N在2.6 ~10.8之间,均值为6.2±2.7,表明城市湖泊沉积有机质来源复杂.2个湖泊蚌类δ15N组成与各自湖泊表层沉积物δ15N组成相对应. 相似文献
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内蒙古高原达里诺尔湖夏季水体稳定同位素变化特征 总被引:4,自引:2,他引:2
基于内蒙古高原寒-旱区达里诺尔湖(简称"达里湖")相对集中的夏季大气降水、强烈的蒸发作用等典型区域气候环境特征,结合湖泊水体温度、盐度等理化指标变化,对夏季达里湖湖水、入湖河水、区域大气降水等样品中稳定氢、氧同位素(δD、δ18O)值变化进行了对比分析.结果显示:虽然整体上达里湖夏季水体并没有形成明显的物理性质"跃层"(如温跃层、盐跃层等),水体理化指标的空间分布相对稳定,但是夏季湖水中δD、δ18O值却随着水深增加逐渐偏负:δD值由表层水体(0~1 m)到底层水体(7~9 m)偏负约1.40‰,δ18O值由表层水体到底层水体偏负约0.27‰.达里湖夏季"大气水线"为δD=8.22δ18O+6.82,显示大气降水中δD、δ18O值受季风降水效应影响的同时受到区域蒸发作用影响.特别是7、8月大气降水同位素变化受降水效应的影响比6、9月更明显,而6、9月大气降水同位素变化受蒸发作用的影响比7、8月更明显.这也导致达里湖夏季上层水体受大气降水的稀释作用影响显著;伴随水深的增加,降水效应及蒸发作用的混合影响逐渐减弱,底层水体受区域地下水补给过程等因素的影响则可能更加明显,即达里湖夏季上层水体和底层水体中稳定同位素组成变化的影响因素存在差异. 相似文献
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Seasonal and annual trends of changes in rainfall, rainy days, heaviest rain and relative humidity have been studied over the last century for nine different river basins in northwest and central India. The majority of river basins have shown increasing trends both in annual rainfall and relative humidity. The magnitude of increased rainfall for considered river basins varied from 2–19% of mean per 100 years. The maximum increase in rainfall is observed in the Indus (lower) followed by the Tapi river basin. Seasonal analysis shows maximum increase in rainfall in the post‐monsoon season followed by the pre‐monsoon season. There were least variations in the monsoon rainfall during the last century and winter rainfall has shown a decreasing trend. Most of the river basins have experienced decreasing trends in annual rainy days with a maximum decrease in the Mahanadi basin. The heaviest rain of the year has increased from 9–27 mm per 100 years over different river basins with a maximum of 27 mm for the Brahamani and Subaranrekha river basins. A combination of increase in heaviest rainfall and reduction in the number of rainy days suggest the possibility of increasing severity of floods. Such information is useful in the planning, development and management of water resources in the study area. Further, the majority of river basins have also experienced an increasing trend in relative humidity both on seasonal and annual scales. An increase in annual mean relative humidity for six river basins has been found in the range of 1–18% of mean per 100 years, while a decrease for three river basins from ? 1 to ? 13% of mean per 100 years was observed, providing a net increase in the study area by 2·4% of mean per 100 years. It is understood that an increase in areal extent of vegetation cover as well as rainfall over the last century has increased the moisture in the atmosphere through enhanced evapotranspiration, which in turn has increased the relative humidity. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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Although changes in rainfall characteristics have been noted across the world, few studies have reported those in mountainous areas. This study was undertaken to clarify spatial and temporal variations in rainfall characteristics such as annual rainfall amount (Pr), mean daily rainfall intensity (η), and ratio of rain days (λ) in mountainous and lowland areas in Taiwan. To this aim, we examined spatial and year‐to‐year variations and marginal long‐term trends in Pr, η, and λ, based on rainfall data from 120 stations during the period 1978–2008. The period mean rainfall () at the lowland stations had strong relationships with the period mean daily rainfall intensity () and the period mean ratio of rain days () during those 31 years. Meanwhile, was only strongly related to at mountainous stations, indicating that influences on spatial variations in were different between lowland and mountainous stations. Year‐to‐year variations in Pr at each station were primarily determined from the variation in η at most stations for both lowland and mountainous stations. Long‐term trend analysis showed that Pr and η increased significantly at 10% and 31% of the total 120 stations, respectively, and λ decreased significantly at 6% of the total. The increases in Pr were mostly accompanied by increases in η. Although stations with significant η increases were slightly biased toward the western lowland area, increases or decreases in Pr and λ were not common. These results contribute to understanding the impacts of possible climate changes on terrestrial hydrological cycles. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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Phosphorus dynamics in water and sediments in urbanized and non-urbanized rivers in Southern Brazil 总被引:1,自引:0,他引:1
Pagliosa PR Fonseca A Bosquilha GE Braga ES Barbosa FA 《Marine pollution bulletin》2005,50(9):965-974
Phosphorus flux models show that the removal tends to be a common feature in polluted estuarine systems whereas the release of P to the adjacent coastal area occurs in pristine environments. This study analyzes the distribution of P in water and sediments along six rivers in the south coast of Brazil. Three rivers located inside protected areas were considered non-polluted and used as a control of urbanization. The other three, situated within urbanized areas, were considered as having highly elevated concentrations of P. Results showed a different behavior of P in water and sediments located in urbanized and non-urbanized areas. The concentrations of dissolved organic (P-org) and inorganic (P-inorg) phosphorus in water, and the total phosphorus (P-tot) and polyphosphate (P-poly) in sediments where higher in the urbanized rivers compared to the non-urbanized ones. Both P of punctual origin and of diffuse origin contributed to the maintenance of elevated concentrations and disturbed the natural fluxes along the polluted rivers. The minimum and maximum concentrations in urbanized areas varied from 0.39 to 12.45 (microM) for P-org and 0.00 to 5.92 (microM) for P-inorg in water, and in sediments from 89.90 to 808.16 (microM g(-1)) for P-tot and 0.00 to 76.51 (microM g(-1)) for P-poly. In non-urbanized areas concentrations in water varied from 0.22 to 1.20 (microM) for P-inorg and 4.43 to 5.56 (microM) for P-org, and in sediments from 45.91 to 652.26 (microM g(-1)) for P-tot and 0.00 to 8.61 (microM g(-1)) for P-poly. Using a hierarchical sampling design and a simple model of variation of P (K(d) model) it was possible to demonstrate that urbanized and non-urbanized estuaries may act as sinks or sources of P. The variation of P analysis in different points along each of the six rivers showed that release and removal areas may occur within a same river independently of its urbanization. 相似文献
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Jurassic and Lower Cretaceous radiolarian zonation in Japan and in the western Pacific 总被引:7,自引:0,他引:7
Abstract A radiolarian zonal scheme for the entire Jurassic and Lower Cretaceous using biostratigraphic data from both Japanese Island sections and the western Pacific seafloor is documented. The zonation is applicable to low and middle paleolatitude portions of the Paleo-Pacific ocean. Radiolarian bio-events such as the evolutionary first appearance biohorizon, first occurrence biohorizon, and last occurrence biohorizon were used to define zones. The 11 zones proposed are, in ascending order, Parahsuum simplum, Trillus elkhornensis, Laxtorum(?) jurassicum, Tricolocapsa plicarum, Tricolocapsa conexa, Stylocapsa(?) spiralis, Hsuum maxwelli, Pseudodictyomitra primitiva, Pseudodictyomitra carpatica, Cecrops sep-temporatus, and Acanthocircus carinatus zones. Preliminary age assignments for these zones are presented. 相似文献
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This Special Issue of Earth Surface Processes and Landforms develops from the ‘Geomorphology: a 2020 Vision’ Annual Conference of the British Society for Geomorphology, organised at the University of Birmingham, UK, in July 2007. Entitled ‘New Developments in Process Understanding and Modelling in Geomorphology’, the Issue comprises a vibrant selection of 10 ‘process’ papers from leading researchers in geomorphological processes who presented at Birmingham. It aims to provide a readily accessible source of new and emerging ideas in understanding different landform processes across a range of space and time scales, based on innovations in geomorphological modelling and monitoring. The last few years have seen significant and exciting changes in geomorphology, especially in conceptual developments, numerical simulations, monitoring methodologies, data‐acquisition strategies and dating techniques. The resultant empirical datasets, theory development and modelling results have generated substantial advances in the understanding of geomorphological processes, form‐process feedbacks, scale impacts, long‐term landform evolution, the effects of climate and environmental change, and human impacts and management strategies. The Special Issue attempts to address the following key challenges: (a) to build on our Conference theme ‘Geomorphology: a 2020 Vision’, by identifying fundamental areas where doors need to be opened, for example in theory development, conceptual understanding, model evaluation, integration of the chemistry, physics, biology and mathematics of geomorphological processes, experimental validation, data needs and monitoring requirements; (b) to look forward to the next decade and beyond, and critically examine some of the approaches we will need for the questions ahead; and (c) to stimulate new research in the geomorphological sciences by highlighting both research gaps and promising developments, including emerging process modelling approaches, monitoring technologies and robust datasets. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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本文对中国石油、天然气资源作了重点的介绍.强调了这些资源对我国国民经济和国防建设的重要性.目前,我国油气资源短缺的现象日益严重.作者指明了在前第三纪海相残留盆地中勘探这些资源,会带来光明的前景. 相似文献
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