共查询到19条相似文献,搜索用时 156 毫秒
1.
红树林是具有重要碳汇功能的生态系统,其保护和修复成为海洋领域应对气候变化的重要手段。适宜的生境条件是红树林生态修复成功与否的关键因素,而红树植物物种和种植措施等也决定了修复后生态系统结构和功能的发展。本研究综述了红树林生态修复固碳功能的特点,分析了生境条件、物种和种植措施等因素对红树林生态系统固碳效果的影响,以期为红树林生态修复提供参考。总体上,红树林生态修复促进了有机碳在植物体和土壤中的累积,而在生态修复初期红树植被的固碳能力高于土壤。水文条件、滩涂高程、底质条件、物种、种植密度和种苗来源等关系到修复后红树植物的生长、颗粒态有机物的沉降、有机物的输出和保留、有机质的分解等过程,进而影响生态系统的固碳能力。因此,开展红树林生态修复时选择适宜生境条件的修复地块,合理选择物种和种植措施,在提高植被恢复效果的同时可提高红树林固碳增汇的生态功能。 相似文献
2.
瓯江口树排沙湿地不同生境大型底栖动物群落多样性研究 总被引:1,自引:0,他引:1
为了解瓯江口树排沙湿地不同生境大型底栖动物群落多样性,于2014年10月至2015年6月对红树林、互花米草及光滩3种生境开展大型底栖动物调查。共鉴定出大型底栖动物48种,隶属于5纲15目31科40属。大型底栖动物年平均栖息密度和生物量,红树林生境最高,互花米草生境次之,光滩生境最低。采用物种多样性指数和G-F多样性指数分析不同生境大型底栖动物群落多样性,发现红树林生境大型底栖动物的多样性高于互花米草生境和光滩生境。单因素方差分析表明:物种数、栖息密度、生物量及物种多样性季节间差异不显著,而物种数、Shannon-Wiener多样性指数与Margalef物种丰富度指数生境间差异显著。人工恢复红树林有助于提高大型底栖动物群落的多样性。 相似文献
3.
雷州半岛红树林边缘效应及其对海岸有机碳库的影响 总被引:1,自引:0,他引:1
作为滨海湿地与邻近海区之间物质循环、能量和物种流动及其相互作用的重要界面,红树林的边缘效应对研究海陆生态系统相互作用,滨海湿地生物地貌形成过程以及海岸带有机碳库分布格局等方面的具有重要意义。文章以雷州半岛东岸红树林4种典型地貌分布区为重点,通过调查红树林前缘光滩,林缘及林内植被及土壤理化特征的变化,探讨红树林边缘效应的表现及其对土壤有机碳库的影响。结果表明,不同地貌类型红树林边界区的群落结构及土壤理化因子分布特征有所不同。边界区群落特征表现为林缘的冠层低于林内,叶面积指数低于林内,物种丰富度林内高于林缘(除河口区外),且林缘的植被盖度受风浪影响显著,表现出河口区>内湾区>岛屿区>前沿浪击区。土壤理化性质边缘效应表现为林缘的pH值、粒度低于光滩,氧化还原电位、盐度高于光滩(除内湾区外),而林内的土壤理化性质波动较大,可能受林缘植被演替及地貌双重影响。不同地貌单元红树林边界区的土壤表层有机碳含量,有机碳密度均表现为林内>林缘>光滩。综合影响表层土壤有机碳的主要生物及非生物因子进行主成分分析和相关分析,结果显示土壤表层有机碳密度与环境第一主成分呈显著负相关,即受植被盖度,叶面积指数和土壤pH因子影响密切。红树林土壤有机碳沉积虽然受到不同水文地貌的影响,但总体而言,红树林初级生产输入和土壤酸性环境对红树林林下土壤有机碳库的富存贡献显著。 相似文献
4.
红树林、滨海盐沼和海草床是典型的滨海蓝碳生态系统,具有相当可观的固碳能力。植被碳库和沉积物碳库是蓝碳生态系统有机碳的主要载体,其变化过程决定了生态系统的整体固碳能力。本文尝试从碳库相互作用的角度出发,通过文献梳理,总结不同植被碳库之间、不同沉积物碳库之间以及植被碳库和沉积物碳库之间相互作用的研究进展,指出物种竞争、外源碳输入以及生物地貌学过程在碳库相互作用中所起到的重要作用,并提出滨海蓝碳生态系统碳库研究中存在的问题和未来研究的方向。 相似文献
5.
为探讨互花米草(Spartinaalterniflora)入侵对三沙湾光滩、红树林湿地的生态影响,分别于2013年10月和2014年9月在三沙湾选择了2条互花米草断面、2条红树林断面和1条光滩进行底栖生物生态调查,分析了大型底栖动物群落分布的时空差异、底栖动物与环境因子之间的关系。经鉴定,该调查海域大型底栖动物共68种,隶属于7门40科,其中短拟沼螺(Assiminea brevicula)为互花米草区优势物种;宁波泥蟹(Ilyoplaxningpoensis)为光滩的优势物种;巴林虫(Barantollasp.)为红树林区优势物种。对各生境大型底栖动物物种数、生物量和栖息密度组成进行双因素无重复方差分析(two-way ANOVA),结果显示不同生境大型底栖动物物种数差异极显著(P0.01),互花米草入侵红树林后,大型底栖动物物种数稍有下降,但是互花米草入侵光滩后,大型底栖动物物种数有所增加;不同生境大型底栖动物生物量差异极显著(P0.01),栖息密度差异不显著(P0.05)。利用大型底栖动物的ABC曲线分析群落结构的稳定性,显示光滩群落结构稳定,互花米草入侵后,优势物种变化显著,双齿围沙蚕数量迅速增加,降低了原有大型底栖动物群落结构的稳定性。除生境影响外,互花米草入侵的潮位区域、生长密度差异、入侵阶段等也均会对大型底栖动物造成影响。 相似文献
6.
潮滩作为重要的湿地类型和高效的有机碳汇备受关注,近期围垦、养殖等人类活动和互花米草入侵对潮滩生化环境和有机碳埋藏产生了重要影响。本研究选取了福建三沙湾三处不同植被类型的潮滩各取得沉积物短柱样,测定沉积物的总有机碳含量(TOC)、稳定碳同位素(δ13C),结合210Pbex测试计算的沉积速率,估算了不同区域的有机碳埋藏通量(BC)。结果表明,互花米草阶段和红树林阶段TOC含量分别为0.67%和0.95%,比对应的光滩阶段分别提高了13.6%和26.7%,表明红树林对潮滩固碳效率的提升比互花米草更加显著。在两者的共同生长区域,随时间推移TOC含量显著下降,表明互花米草入侵挤占红树林生长空间之后,降低了潮滩的固碳效率。短柱样沉积物δ13C值分布范围在-24.70~-21.87‰,主要体现海源有机质同位素特征,但也会受潮滩植被生长类型影响。对各短柱样有机碳埋藏通量进行估算,得到研究区红树林生长阶段BC平均值为149.53 g/m2/yr,远高于互花米草生长阶段的平均值57.37 g/m2/yr。 相似文献
7.
红树林是全球极为重要的生态与环境资源, 在储存有机碳、增加滩面高程及防御海洋灾害等方面富有成效。然而, 因高强度人类活动与海面上升作用, 世界沿海红树林潮滩出现大规模损失。基于此, 本文从红树林消能及泥沙捕集、红树林潮滩生物地貌行为, 以及红树林潮滩对风暴潮与海面上升的响应三个方面, 对红树林潮滩沉积动力研究进行分析与回顾, 提出红树林潮滩沉积动力研究的关键问题应着重于红树林潮滩波流联合动力的衰减与潮滩动力、沉积、地貌及植被的耦合过程。此外, 针对全球沿海红树林生境的差异, 还应从区域尺度加强红树林潮滩沉积过程与驱动机制的研究。 相似文献
8.
红树林是生长在热带和亚热带沿海湿地上的一种独特的植被类型。红树林在发展滩涂养殖和近海渔业,防止海岸侵蚀,防波护堤,维持物种多样性,保护基本库,净化环境,美化景观,解决海平面上升的生态危机,提取海洋 相似文献
9.
红树植物根际土壤微生物对近海生物地球化学循环及其生物多样性等起着重要作用,受地上部和土壤性质影响,两种不同药用红树植物桐花树(Aegiceras corniculatum)和老鼠簕(Acanthus ilicifolius)根际土壤微生物群落组成可能存在独特性。本研究分别以细菌 16S rRNA基因和真菌ITS 基因为分子标记,采用高通量测序技术分析比较了桐花树和老鼠簕根际土壤微生物多样性特征及其与土壤理化性质之间的关系。结果表明:①老鼠簕根际土壤细菌和真菌多样性与丰富度均显著高于桐花树,且两者之间的细菌和真菌组成皆存在明显差异(P<0.05);②两者根际土壤细菌和真菌门和属的优势(大于1%)物种组成皆相似;在门水平,桐花树根际土壤主要优势物种变形菌门(Proteobacteria)和未分类门(unclassified_k_Fungi)的相对丰度显著高于老鼠簕,而拟杆菌门(Bacteroidota)、脱硫杆菌门(Desulfobacterota)、子囊菌门(Ascomycota)和担子菌门(Basidiomycota)则相反;在属水平,桐花树的主要优势物种硝化螺菌属(Nitrospira)和Denitromonas属的相对丰度显著高于老鼠簕,而枝孢菌属(Cladosporium)和囊状担子菌属(Cystofilobasidium)则相反;③桐花树根际土壤pH、总碳和总酚含量皆显著高于老鼠簕,pH和总酚显著影响细菌群落组成,而总碳和总硫则显著影响真菌群落组成;此外,pH、总碳和总氮是影响细菌物种的主要因素,而总酚、pH和总碳是影响真菌物种的主要因素。本研究揭示了桐花树和老鼠簕根际土壤细菌和真菌多样性存在明显差异并与土壤理化性质密切相关,可为今后从不同红树物种所具备的独特功能根际微生物菌群来开发相关资源及保护近海的生态环境提供新的视角。 相似文献
10.
以红树植物老鼠簕作为实验材料,通过模拟海水实验,研究了不同质量浓度(0、1、2、5、10、20mg/L)的邻苯二甲酸二丁酯(DBP)污染暴露对老鼠簕幼苗叶绿素含量、比值及抗氧化酶系统(SOD,POD,CAT)等生理指标的影响。结果表明:(1)当DBP浓度为5mg/L时,DBP污染对老鼠簕幼苗叶绿素含量具有一定促进作用,其余浓度DBP污染均会使老鼠簕幼苗叶绿素含量显著下降; DBP污染对老鼠簕幼苗叶绿素a/b比值基本无影响;(2)随着DBP浓度升高,老鼠簕幼苗抗氧化酶活性均呈现先上升后下降的变化。说明DBP污染会导致老鼠簕幼苗叶片衰老;低浓度DBP暴露(≤10mg/L)可以诱导老鼠簕幼苗抗氧化酶系统活性增加,并保持一定时间细胞内活性氧平衡,高浓度DBP暴露(10mg/L)会对老鼠簕幼苗的抗氧化酶系统产生不可逆的损伤。研究结果也为红树林湿地的保护,DBP的生态风险评价及污染控制提供了科学参考。 相似文献
11.
Mangrove forests are vulnerably threatened by sea level rise (SLR). Vegetation organic carbon (OC) stocks are important for mangrove ecosystem carbon cycle. It is critical to understand how SLR affects vegetation OC stocks for evaluating mangrove blue carbon budget and global climate change. In this study, biomass accumulation and OC stocks of mangrove vegetation were compared among three 10 year-old Kandelia obovata (a common species in China) mangrove forests under three intertidal elevations through species-specific allometric equations. This study simulated mangrove forests with SLR values of 0 cm, 40 cm and 80 cm, respectively, representing for the current, future ~100 a and future ~200 a SLR of mangrove forests along the Jiulong River Estuary, China. SLR directly decreased mangrove individual density and inhibited the growth of mangrove vegetation. The total vegetation biomasses were (12.86±0.95) kg/m2, (7.97±0.90) kg/m2 and (3.89±0.63) kg/m2 at Sites SLR 0 cm, SLR 40 cm and SLR 80 cm, respectively. The total vegetation OC stock decreased by approximately 3.85 kg/m2 (in terms of C) from Site SLR 0 cm to Site SLR 80 cm. Significantly lower vegetation biomass and OC stock of various components (stem, branch, leaf and root) were found at Site SLR 80 cm. Annual increments of vegetation biomass and OC stock also decreased with SLR increase. Moreover, significant lower sedimentation rate was found at Site SLR 80 cm. These indicated that SLR will decrease mangrove vegetation biomass and OC stock, which may reduce global blue carbon sink by mangroves, exacerbate global warming and give positive feedback to SLR. 相似文献
12.
大亚湾红树林及海岸植物叶片盐腺与表皮非腺毛结构 总被引:1,自引:1,他引:0
光镜下观察研究了大亚湾地区部分红树林和海岸植物叶片的盐腺(腺毛)和非腺毛的结构及部分种类的发育过程,结果表明:在21种植物中,叶片具盐腺的有桐花树、老鼠勒、白骨壤、黄槿、假茉莉、海南刺、二叶红薯,具非腺毛的有黄槿、白骨壤、钝叶豆腐木、草海桐。不同植物盐腺和表皮非腺毛的基本结构一致,反映出对难生境的趋同适应。 相似文献
13.
Tracing carbon transfer and assimilation by invertebrates and fish across a tropical mangrove ecosystem using stable isotopes 
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下载免费PDF全文 Nguyen Tai Tue Tran Dang Quy Mai Trong Nhuan Luu Viet Dung Nguyen Dinh Thai 《Marine Ecology》2017,38(5)
Mangroves are highly productive ecosystems that exhibit a diverse range of habitats, including tidal creeks and flats, forest gaps and interior forest with varying understory light intensity, tidal dynamics, geomorphological settings, and overall biological production. Within mangrove ecosystems, invertebrates and fish feed on heterogeneous food sources, the occurrence of which is unevenly distributed across the system. This provides a basis for testing models of carbon transfer across mangrove ecosystems. We hypothesized that the carbon transfer and assimilation by fish and invertebrates will vary across the different mangrove habitats and that such variations can be predicted by their stable isotope compositions. We analysed δ13C and δ15N signatures of consumers and their potential organic carbon sources across a tropical mangrove ecosystem in Vietnam. The δ13C values of crabs and snails significantly decreased from the tidal flat to interior forest, indicating that variations in carbon transfer and assimilation occurred at small scales <30 m. Reduced variation in δ13C of suspension‐feeding bivalves suggested that tidal water was a vector for large‐scale transport of carbon across the mangrove ecosystem. An analysis of co‐variance using habitat as a fixed factor and feeding habit and movement capacity of consumers as co‐variates indicated that habitat and feeding types were major features that affected the δ13C values of invertebrates and fish. The findings demonstrate that carbon transfer and assimilation across mangrove ecosystems occur as a diverse combination of small (<30 m) and large (>30 m) scale processes. 相似文献
14.
Coastal mangroves, dwelling at the interface between land and sea, provide an important contribution to reducing risk from coastal hazards by attenuating incident waves and by trapping and stabilizing sediments. This paper focusses on relations between vegetation densities, wave attenuation rates, sediment characteristics and sedimentation rates in mangroves. These processes were studied along two cross-shore transects through mangroves fringing estuaries in the southern Andaman region of Thailand. Volumetric vegetation densities in these mangroves were ranging up to 32‰, depending on the water depth. Generalized total wave attenuation rates increased from 0.002 m− 1 in the sparsely vegetated forest fringes with Avicennia and Sonneratia species, up to 0.012 m− 1 in the dense Rhizophora vegetation in the back of the forests. The total wave attenuation rates integrate effects of shoaling and energy losses due to various bio-physical interactions within the mangrove ecosystem. Wave attenuation in the mangroves is presumably dominated by energy losses due to vegetation drag, since wave attenuation due to bottom friction and viscous dissipation on the bare mudflats is significantly lower than those inside the mangrove vegetation.Additionally, wave attenuation in the mangroves was found to facilitate enhanced net sediment deposition and a gradual fining of the bed material. These findings corroborate the coastal defence function of mangroves by quantifying their contribution to wave attenuation and sediment trapping. The explicit linking of these properties to vegetation composition and structure facilitates modelling studies investigating the mechanisms determining the coastal defence capacities of mangroves. 相似文献
15.
Macrofauna along the Sudanese Red Sea coast: potential effect of mangrove clearance on community and trophic structure 下载免费PDF全文
下载免费PDF全文 Mangroves along the Sudanese Red Sea coast are under constant anthropogenic pressure. To better understand the influence of mangrove clearance on the intertidal benthic community, we investigated the composition, biodiversity and standing stock of the macrofauna communities at high‐, mid‐ and low‐water levels in three contrasting habitats: a bare sand flat, a cleared mangrove and an intact mangrove. In addition, a community‐wide metric approach based on taxon‐specific carbon and nitrogen isotope values was used to compare the trophic structure between the three habitats. The habitats differed significantly in terms of macrofaunal standing stock, community composition and trophic structure. The high‐ and mid‐water levels of the intact mangroves showed a distinct macrofaunal community characterized by elevated densities and biomass, largely governed by higher decapod and gastropod abundances. Diversity was similar for cleared and intact mangroves, but much lower for the bare sand flat. Community‐wide metrics indicated highest trophic diversity and community niche breadth in the intact mangroves. Differences between the cleared and intact mangroves can be partly attributed to differences in sediment characteristics resulting from mangrove clearance. These results suggest a significant impact of mangrove clearance on the macrofaunal community and trophic structure. This study calls for further investigations and management actions to protect and restore these habitats, and ensure the survival of this ecologically valuable coastal ecosystem. 相似文献
16.
Pedro Walfir M. Souza-Filho Waldir R. Paradella Suzan W.P. Rodrigues Francisco R. Costa José C. Mura Fabrício D. Gonçalves 《Estuarine, Coastal and Shelf Science》2011
This study assessed the use of multi-polarized L-band images for the identification of coastal wetland environments in the Amazon coast region of northern Brazil. Data were acquired with a SAR R99B sensor from the Amazon Surveillance System (SIVAM) on board a Brazilian Air Force jet. Flights took place in the framework of the 2005 MAPSAR simulation campaign, a German-Brazilian feasibility study focusing on a L-band SAR satellite. Information retrieval was based on the recognition of the interaction between a radar signal and shallow-water morphology in intertidal areas, coastal dunes, mangroves, marshes and the coastal plateau. Regarding the performance of polarizations, VV was superior for recognizing intertidal area morphology under low spring tide conditions; HH for mapping coastal environments covered with forest and scrub vegetation such as mangrove and vegetated dunes, and HV was suitable for distinguishing transition zones between mangroves and coastal plateau. The statistical results for the classification maps expressed by kappa index and general accuracy were 83.3% and 0.734 for the multi-polarized color composition (R-HH, G-HV, B-VV), 80.7% and 0.694% for HH, 79.7% and 0.673% for VV, and 77.9% and 0.645% for HV amplitude image. The results indicate that use of multi-polarized L-band SAR is a valuable source of information aiming at the identification and discrimination of distinct geomorphic targets in tropical wetlands. 相似文献
17.
Mao Wang Zhenyuan Huang Fushan Shi Wenqing Wang 《Estuarine, Coastal and Shelf Science》2009,85(2):208-216
Well-developed aerial roots of mangroves make it difficult to study how fish utilize the mangrove forest as a habitat. In the present study, we compared the differences in fish assemblages in three major types of habitats of mangrove estuary (vegetated area, treeless mudflat, and creek) of a mangrove bay in Hainan Island, China, at different seasons during two consecutive years. Three types of gears, centipede net, gill net and cast net, were used in the different habitats of mangrove estuary and sampling efficiencies among gears were evaluated. Centipede nets were used in all the three types of habitats and cast nets and gill nets in treeless mudflats and creeks. Fish assemblages were dependent on gears used. Centipede net could efficiently catch fish occurring both inside and outside of vegetated areas efficiently. A total of 115 fish species in 51 families were collected. In terms of numbers of species per family, Gobiidae was the most diverse (17 species), followed by Mugilidae (5 species). Almost all of the fish were juvenile or small fish and few predators were recorded, implying low predation pressure in the bay. ANOVA analysis showed that significant seasonal and spatial variation existed in species richness, abundance, and biomass, which were less in the vegetated areas than those of treeless mudflats and creeks. The attraction of vegetated areas to fish was less than that of creeks and mudflats. Many species were specific to a particular habitat type, 4 species occurring exclusively in the creeks, 45 species occurring exclusively in the treeless mudflats, and 5 species occurring exclusively in the vegetated areas. The results indicated that mangrove estuaries were potentially attractive habitats for juvenile and small fish, but this attraction was accomplished by a connection of vegetated areas, treeless mudflats and creeks, not only by vegetated areas. 相似文献
18.
Size-dependent distribution and feeding habits of Terebralia palustris in mangrove habitats of Gazi Bay, Kenya 总被引:2,自引:2,他引:0
Ellen Pape Agnes Muthumbi Chomba Peter Kamanu Ann Vanreusel 《Estuarine, Coastal and Shelf Science》2008,76(4):797-808
The gastropod Terebralia palustris often dominates the surface of muddy to sandy substrates of intertidal mudflats and mangrove forests, where they clearly destabilize the sediment. In the present study, it was investigated whether and to what extent the behaviour of juvenile and adult snails differs among habitats (mudflat vs. mangrove stand) in a Sonneratia alba mangal at Gazi Bay, Kenya. For this purpose we: (1) examined their distribution along three land–sea transects; and (2) applied stable isotope analysis to determine the feeding patterns of different-sized snails from the mangrove and mudflat habitats. Additionally, we investigated if these gastropods exert an impact on microphytobenthic (diatom) biomass, and whether this is size-dependent. The latter objective was met by either enclosing or excluding different-sized snails from experimental cages on the intertidal mudflat and the subsequent assessment of a change in pigment concentration of the sediment surface. In agreement with several previous studies conducted in other mangroves and geographical locations, a spatial segregation was demonstrated between juveniles (more common on the mudflat) and adults (more common in the mangrove forest). On the intertidal mudflat juveniles avoided sediment patches characterized by highly saline water in intertidal pools and a high mud content, while adults tended to dwell on substrates covered by a high amount of leaf litter. Stable carbon isotope analysis of the foot tissue of snails sampled from the S. alba stand and the mudflat indicated a transition in food source when a shell length of 51 mm is reached. Considering the δ13C value of juveniles, it seems they might be selecting for microphytobenthos, which might explain their preference for the mudflat. The diet of size classes found in both habitats did not differ significantly, although juveniles inhabiting the mangrove forest were slightly more depleted in 13C compared to those residing on the mudflat. Assuming juveniles feed on benthic microalgae and considering the lower microalgal biomass inside the mangrove forest, this may be a consequence of a higher contribution of other, more 13C depleted organic carbon sources, like phytoplankton, to their diet. Experimental results indicate a negative, but insignificant, impact on benthic diatom biomass by juveniles (due to grazing) and adults (due to physical disturbance). This finding seems to be in agreement with the results of the stable carbon isotope analysis, strongly suggesting the selective feeding of juvenile T. palustris on benthic diatoms. 相似文献
19.
Colin D. Woodroffe 《Estuarine, Coastal and Shelf Science》1985,20(3):265-280
The mangrove, Avicennia marina var. resinifera in a tidally-flooded explosion crater, Tuff Crater, near the southern latitudinal limit of mangroves in New Zealand adopts two distinct growth forms, taller tree-like mangroves up to 4 m tall along the banks of the tidal creek, and low stunted shrub mangroves less than 1 m tall on the mudflats. Twelve trees were felled and on the basis of a biomass/height relationship for the taller trees and a biomass/canopy width relationship for the lower, above-ground biomass (excluding pneumatophores) was estimated. Average above-ground biomass for the taller mangrove was estimated to be 104·1 t ha?1 and for the lower 6·8 t ha?1. While the value for the taller mangroves is similar to figures reported for more complex tropical mangroves, the fact that 94% of the basin is covered by low generally sparse mangroves means that total biomass for the basin is estimated to be 153 t, an average of only 7·6 t ha?1. Litter-fall beneath the taller mangroves is estimated as 7·6±2·5 t ha?1 a?1 and beneath the lower mangroves 3·3±0·5 t ha?1 a?1. The value for the taller mangroves is similar to that reported from mangroves in many other parts of the world, but because of the extensive low sparse mangroves the total for the basin is estimated as 53·7 t a?1, an average rate of 2·7 t ha?1 a?1, a very low rate of litter-fall when compared with elsewhere. Decomposition of mangrove leaves occurs relatively rapidly with leaves losing half their dry weight in 10 weeks and then continuing to degrade but at a slower rate. Substrate sediment samples contain high organic matter content, and although some organic matter appears to be exported via the tidal creek, a proportion of the detrital production is evidently recycled in situ. 相似文献