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1.
Arbuscular mycorrhizae and phosphate solubilising bacteria of the rhizosphere of the mangrove ecosystem of Great Nicobar island, India 总被引:2,自引:0,他引:2
David Kothamasi Shalini Kothamasi A. Bhattacharyya Ramesh Chander Kuhad C. R. Babu 《Biology and Fertility of Soils》2006,42(4):358-361
Mangroves form an important ecosystem of Great Nicobar, a continental island in the Bay of Bengal with luxuriant tropical
rainforests. The rhizosphere of the mangrove plants of Great Nicobar was investigated for the presence of arbuscular mycorrhizal
fungus (AMF) and phosphate solubilising bacteria (PSB). The soils of the Great Nicobar mangroves were silt–clays and were
poor in phosphate content. Five species of AMF belonging to the genus Glomus were isolated. The %AMF colonization in the mangrove plants was between 0 and 17%, and the presence of AMF in the aerenchymatous
cortex suggests that the mangrove plants may be aiding in AMF survival by providing oxygen. Two strains of phosphate solubilising
Pseudomonas aeruginosa were found in the mangrove soils of Great Nicobar. Phosphate solubilisation by the two isolated strains was almost 70% under
in vitro conditions. PSB may play a role in the mangrove ecosystems of Great Nicobar by mobilising insoluble phosphate. The
plant roots could pick up the released phosphate directly or with the aid of AMF hyphae. 相似文献
2.
Pristine and impaired mangrove soils (from road construction, aquaculture, and sewage) in Baja California Sur, Mexico were
investigated for methane dynamics, related soil properties, and their impact on initial establishment of black mangrove propagules.
All soils (Salic Fluvisols and Histosols) had neutral to alkaline pH, were saline, and had variable organic carbon content,
and redox potentials. Most pristine mangrove soils showed low methane concentration, low methane production rates, and no
methane emission. Impaired mangrove soil (from aquaculture) and mangrove soil affected by sewage water showed high methane
concentration, high methane production rates, and high methane emission, thus acting as a methane source. Elevated methane
concentrations, similar to levels detected in the impaired mangrove soil, reduce the growth of seedlings under closed chamber
conditions. Addition of sulfate to the soil reversed the trend. These results indicate that impaired mangrove soils in dry
climatic regions produce and emit methane and that elevated methane concentration in the vicinity of propagules may affect
establishment of mangrove seedlings in impaired mangrove soils.
This paper is in memory of the late mangrove researcher Dr. Gina Holguin of Mexico. 相似文献
3.
Katia N. Suzuki E. C. Machado W. Machado A. V. B. Bellido L. F. Bellido J. A. Osso Jr. R. T. Lopes 《Water, air, and soil pollution》2012,223(7):3887-3892
Microcosm experiments on the behaviour of Se, Cr and Co were carried out with mangrove sediments from Sepetiba Bay, Brazil. Three 8-cm length sediment cores were covered with tidal water spiked with 75Se, 51Cr and 60Co to evaluate its behaviour within the sediments. Two cores retained almost all activities (99?C100?%) within the uppermost centimetre layer, while the third core presented a deeper penetration of all radiotracers, displaying a second activity peak at the 3?C4-cm depth interval, which evidenced benthic fauna bioturbation influence. This influence extended the diffusion into depths in which mangrove rhizosphere can retain the elements, suggesting increased retention efficiency. This mechanism of retention enhancement was proposed in addition to previous conceptual models describing trace elements behaviour in mangrove sediments. Increased bioturbation and rhizosphere development will probably increase this effect, while mangrove plant cover losses may promote a less efficient retention of elements recently diffused from tidal water. 相似文献
4.
Peter J. Mumby 《Biological conservation》2006,128(2):215-222
Many species of coral reef fish undertake ontogenetic migrations between seagrass beds, mangroves, and coral reefs. A recent study from the Caribbean found that the availability of mangrove nursery habitat had a striking impact on the community structure and biomass of reef fish in their adult, coral reef habitat. The biomass of several species more than doubled when the reefs were connected to rich mangrove resources (defined as having at least 70 km of fringing Rhizophora mangle within a region of 200 km2). Here, the results of this large-scale empirical study are translated into a series of algorithms for use in natural resource management planning. Four algorithms are described that identify (i) the relative importance of mangrove nursery sites, (ii) the connectivity of individual reefs to mangrove nurseries, (iii) areas of nursery habitat that have an unusually large importance to specific reefs, and (iv) priority sites for mangrove reforestation projects. The algorithms generate a connectivity matrix among mangroves and coral reefs that facilitates the identification of connected corridors of habitats within a dynamic planning environment (e.g., reserve selection algorithms). 相似文献
5.
6.
The role of sediment microorganisms in the productivity, conservation, and rehabilitation of mangrove ecosystems: an overview 总被引:13,自引:1,他引:13
Mangrove communities are recognized as highly productive ecosystems that provide large quantities of organic matter to adjacent coastal waters in the form of detritus and live animals (fish, shellfish). The detritus serves as a nutrient source and is the base of an extensive food web in which organisms of commercial importance take part. In addition, mangrove ecosystems serve as shelter, feeding, and breeding zones for crustaceans, mollusks, fish of commercial importance, and resident and migratory birds. Although mangroves in the United States are protected, the systematic destruction of these ecosystems elsewhere is increasing. Deforestation of mangrove communities is thought to be one of the major reasons for the decrease in the coastal fisheries of many tropical and subtropical countries. There is evidence to propose a close microbe-nutrient-plant relationship that functions as a mechanism to recycle and conserve nutrients in the mangrove ecosystem. The highly productive and diverse microbial community living in tropical and subtropical mangrove ecosystems continuously transforms nutrients from dead mangrove vegetation into sources of nitrogen, phosphorus, and other nutrients that can be used by the plants. In turn, plant-root exudates serve as a food source for the microorganisms living in the ecosystem with other plant material serving similarly for larger organisms like crabs. This overview summarizes the current state of knowledge of microbial transformations of nutrients in mangrove ecosystems and illustrates the important contributions these microorganisms make to the productivity of the ecosystems. To conserve the mangrove ecosystems, which are essential for the sustainable maintenance of coastal fisheries, maintenance and restoration of the microbial communities should be undertaken. Inoculation of mangrove seedlings with plant-growth-promoting bacteria may help revegetate degraded areas and create reconstructed mangrove ecosystems. 相似文献
7.
Mangroves are highly threatened ecosystems yet their community ecology is poorly understood. We examined the ecological determinants of bird community assemblage in floristically depauperate mangroves. Birds were surveyed using line transect methods. Large mangrove patches supported fewer species than smaller patches. Patches did not comprise nested species subsets and the bird species richness of several small patches combined was greater than a single large area. The number of mangrove dependent species in a patch was area-dependent suggesting these species may be resource limited, although there was no species density compensation. There was a clear effect of the surrounding habitat, with matrix species accounting for ∼45% of bird species in a patch. Patches surrounded by tropical savanna were relatively species-poor, while regardless of size, patches including monsoon rainforest were relatively species rich. Null model analysis of non-random assemblage structure (nestedness and species co-occurrence) revealed no deterministic structure to the overall mangrove species assemblage. These analyses described a random pattern of bird distribution and with no evidence of density compensation this suggests that competition is a weak structuring force of mangrove bird assemblages. The lack of nestedness and the random co-occurrence of species are consistent with the matrix-dependence of bird community composition. Conservation plans should treat mangrove patches as part of a habitat mosaic and incorporate many smaller mangrove patches rather than just big ones. Consideration of the nature, extent and diversity of the surrounding matrices is vital in managing and conserving mangrove bird communities. 相似文献
8.
Silva L. F. F. Machado W. Lisboa Filho S. D. Lacerda L. D. 《Water, air, and soil pollution》2003,145(1-4):67-77
The Hg accumulation in sedimentary environments of a mangrove ecosystem in Sepetiba Bay, SE Brazil, was investigated. These environments include sediments of a mangrove forest, the main tidal creek that drains the forest, and the bare seaward-edge mud flat adjacent to forest and tidal creek. Maximum Hg concentration peaks in sediments from the mud flat (184 ng g-1), tidal creek (98 ng g-1), and mangrove forest (60 ng g-1) correspond to enrichment factors of 6.1, 3.3, and 2.0 above the estimated average background level, respectively. Average inventories of Hg excess (background-corrected) concentrations were substantiallydifferent between environments, decreasing from mud flat sediments (5.2 mg m-2) to creek sediments (3.3 mg m-2)to mangrove forest sediments (0.9 mg m-2). Mercury concentration profiles indicated a consistently higher accumulation of Hg in surface layers of mud flat and tidal creeksediments, whereas mangrove forest sediments showed a higher Hgaccumulation in root-rich subsurface layers, in agreement with an enrichment of Fe and organic matter contents. While Hg distribution in mud flat and tidal creek sediments appears to belargely affected by contamination, its distribution in mangrove forest substrate appears to be greatly affected by root-sedimentinteractions. Mercury levels in the study site were comparable tothose observed in coastal sediments under moderate Hg contamination at local and regional scales. Results indicate thatsedimentary environments surrounding the mangrove forest retain most of the anthropogenic Hg reaching the ecosystem. Since tidal waters have been previously demonstrated as the main source of metals to the site, it is suggested that the Hg retention in mudflat sediments precede and may avoid a higher Hg accumulation inlandward environments. 相似文献
9.
针对红树林叶面积指数(Leaf Area Index,LAI)实地测量难度大、无法快速大范围LAI估算的问题。该研究以广西北部湾红树林为研究对象,以无人机(Unmanned Aerial Vehicle,UAV)和哨兵二号(Sentinel-2A,S2)多光谱影像为数据源,整合原始光谱波段、植被指数和组合植被指数构建高维数据集,并进行数据降维和特征优选。定量评估6种机器学习算法(XGBoost、前馈反向传播神经网络(Back Propagation,BP)、支持向量机(SVM)、岭回归(Ridge)、Lasso和弹性网络(ElasticNet))对不同红树林树种LAI的估算能力;探究UAV和Sentinel-2A影像对红树林树种LAI估算的精度差异。研究结果表明:1)基于XGBoost算法构建的模型实现了红树林LAI高精度估算,R2均高于0.70,RMSE均低于0.349;2)在UAV和Sentinel-2A影像下,XGBoost模型对不同红树林树种LAI的估算精度(R2)比其他5种模型分别提高了0.105~0.365和0.283~0.540,RMSE降低了0.100~0.392和0.102~0.518;3)UAV影像数据与XGBoost算法构建的模型对海榄雌LAI的估算精度优于其他组合(R2=0.821、RMSE=0.288),Sentinel-2A影像数据与XGBoost算法构建的模型对秋茄和桐花树LAI的估算精度优于其他组合(R2=0.940~0.979、RMSE=0.142~0.104),不同红树林树种LAI的估算精度依次为桐花树>秋茄>海榄雌;4)SNAP-SL2P算法整体性低估红树林LAI值,UAV影像红树林树种LAI的平均估算精度(R2=0.677~0.713)均优于Sentinel-2A影像,实现了不同红树林树种LAI的高精度估算。 相似文献
10.
红树林恢复过程中土壤有机碳的变化 总被引:1,自引:0,他引:1
Based on total carbon (C) and C isotopes in sediment cores, sedimentary organic carbon (SOC) was quantified in three types of mangrove sites (barren flat sites without mangroves, mangrove plantations, and natural mangrove forests), which were considered to represent a continuum from least restored to most restored sites in southern China. SOC densities in the barren sites, plantations, and natural forests were 90, 170 and 288 Mg ha-1, respectively. We inferred that mangrove restoration increased SOC accumulation in coastal areas. At 0--70 cm depth, SOC ?13C values in both mangrove sites ranged from -27.37‰ to -23.07‰, and exhibited gradual enrichment with depth. In contrast, the values in the barren flat sites remained around -22.19‰ and fluctuated slightly with depth. At 0--60 cm, the 14C ages of the SOC in the barren flat site, the natural mangrove site, and the artificial mangrove site ranged from 1 397 to 2 608, 255 to 2 453, and 391 to 2 512 years BP, respectively. In both types of mangrove sites but not in the barren flat sites, the enrichment of ?13C with depth was related to increases in SOC decay and SOC age with depth. According to analysis of 14C age, much of the mangrove-derived C was transported and stored at 0--60 cm depth under anaerobic conditions in both mangrove sites. The sediments of mangrove forests in southern China sequester large quantities of SOC during mangrove restoration. 相似文献
11.
Cristiane Cipola Fasanella Armando Cavalcante Franco Dias Janaina Rigonato Marli de Fátima Fiore Fábio Lino Soares Jr Itamar Soares Melo Aline Aparecida Pizzirani-Kleiner Jan Dirk van Elsas Fernando Dini Andreote 《Water, air, and soil pollution》2012,223(7):4233-4243
Mangrove ecosystems are tropical environments that are characterized by the interaction between the land and the sea. As such, this ecosystem is vulnerable to oil spills. Here, we show a culture-independent survey of fungal communities that are found in the sediments of the following two mangroves that are located on the coast of Sao Paulo State (Brazil): (1) an oil-spill-affected mangrove and (2) a nearby unaffected mangrove. Samples were collected from each mangrove forest at three distinct locations (transect from sea to land), and the samples were analyzed by quantitative PCR and internal transcribed spacer (ITS)-based PCR-DGGE analysis. The abundance of fungi was found to be higher in the oil-affected mangrove. Visual observation and correspondence analysis (CA) of the ITS-based PCR-DGGE profiles revealed differences in the fungal communities between the sampled areas. Remarkably, the oil-spilled area was quite distinct from the unaffected sampling areas. On the basis of the ITS sequences, fungi that are associated with the Basidiomycota and Ascomycota taxa were most common and belonged primarily to the genera Epicoccum, Nigrospora, and Cladosporium. Moreover, the Nigrospora fungal species were shown to be sensitive to oil, whereas a group that was described as ??uncultured Basidiomycota?? was found more frequently in oil-contaminated areas. Our results showed an increase in fungal abundance in the oil-polluted mangrove regions, and these data indicated potential fungal candidates for remediation of the oil-affected mangroves. 相似文献
12.
Annie Melinda Paz-Alberto Arnel B. Celestino Gilbert C. Sigua 《Journal of Soils and Sediments》2014,14(1):251-258
Purpose
Coal-fuelled power plants can discharge hazardous materials, particularly heavy metals such as lead (Pb). An alternative way of reducing Pb concentration from contaminated sediments is through phytoremediation. Presently, there are few research findings on the phytoremediation potential of mangroves on metals like Pb. The study was conducted to survey and identify mangroves that thrive near the coal-fired power plant and to assess the phytoremediation potential of mangroves on Pb in sediment.Materials and methods
The study sites were located in the mangrove ecosystems of Sitio Oyon and Sitio Asinan in Masinloc, Zambales, Philippines. The first stage of our study was to survey and identify the mangrove species. The second stage was to assess the levels of Pb in the sediments, water, and tissues of mangrove trees. The diversity assessment of the mangrove species was done through the use of 10?×?12 m quadrat technique. Water and sediment samples from each mangrove ecosystem were collected using composite sampling methods.Results and discussion
Three mangrove species were identified in the study sites: Avicennia marina, Rhizophora stylosa, and Sonneratia alba. The order of importance of the mangrove trees in the two sampling locations, based on an importance value index (IVI), were as follows: SA (IVI?=?171.20)?>?AM (77.79)?>?RS (51.01). The total uptake of Pb from sediments near the power plants varied significantly (p?≤?0.001) among the three mangrove species. S. alba had the highest Pb uptake of 48.4 kg ha?1 followed by A. marina (23.1 kg ha?1), and R. stylosa (2.4 kg ha?1). These three mangrove species have the potential to phytoremediate Pb in the sediment.Conclusions
The three mangrove species present in the coastal ecosystem near the electric power plant—A. marina, R. stylosa, and S. alba—were potential phytoremediators of sediment Pb. The present study indicated that the mangroves possess beneficial characteristics that remove Pb from contaminated sediments in areas directly affected by coal-fired power plants, and thus have potential phytoremediation properties. 相似文献13.
《Soil Science and Plant Nutrition》2012,58(5):435-443
ABSTRACTMangrove ecosystems play an important role in carbon (C) accumulation in tropical and subtropical regions. Below-ground deep anoxic soil is especially important for C accumulation. However, quantitative data on below-ground soil C stocks in mangrove ecosystems are lacking compared with data on above-ground biomass. In addition, soil C accumulation processes in mangrove ecosystems have not been sufficiently clarified. In this study, we quantified soil C stocks and focused on the mass of fallen litter and below-ground roots, which are produced by tree and that may directly influence soil C stocks in a mature subtropical mangrove in the estuary of Fukido River, Ishigaki Island, southwestern Japan. The principal species in this study site were Bruguiera gymnorhiza and Rhizophora stylosa, and total above-ground biomass at the site was 80.7 ± 1.3 (mean ± SD) Mg C ha?1 over the period from 2014 to 2016. Litter was collected in six litter traps from May 2013 to November 2016, it ranged from 7.8 to 11.5 Mg C ha?1, with the major proportion of litter being from foliage (leaves and stipules). The root C density at 90-cm depth was 27.1 ± 11.3 Mg C ha?1. The soil C stock in the mangrove forest at a depth of 90 cm at the study site was 251.0 ± 34.8 Mg C ha?1, and it seems to be lower value in the tropical region but it to be higher in subtropical East Asian mangrove sites. Dead roots, especially dead fine roots, but not fallen litter, were significantly positively correlated with soil C stocks. The δ13C values obtained from soils ranged from ?29.3‰ to ?27.0‰; these values are consistent with those for below-ground fine roots. These results strongly suggest that dead fine roots could be a main factor controlling soil C stocks at this study site. 相似文献
14.
Sandro Froehner Karina Scurupa Machado Elisa Stefen Marcelo Nolasco 《Water, air, and soil pollution》2011,219(1-4):591-599
The presence of sexual hormones (female estrogens) was assessed in sediments of a mangrove located in the urban region of southern Brazil. The estrogens are involved in human sexual reproduction. They act as the chemical messengers, and they are classified as natural and synthetic. The estrogens inputs in the environment are from treated and untreated sewage. The presence of estrogens in sewage is excretion from the female due to natural production and use of contraceptives (synthetic estrogens). With the indiscriminate release of sewage into the environment, estrogens can be found in rivers, lakes, and even in oceans. In this work, the presence of estrone (E1), 17-??-estradiol (E2), and 17-??-ethynilestradiol (EE2) in eight sedimentary stations in Itacorubi mangrove located on Santa Catarina Island, south Brazil, was investigated. Historically, the Itacorubi mangrove has been impacted by anthropogenic activities because the mangrove is inserted in the urban area of the Florianopolis. The estrogen EE2, used as contraceptive, had the highest concentration in mangrove sediment, 129.75?±?3.89 ng/g. E2 was also found, with its concentration ranging from 0.90?±?0.03 to 39.77?±?1.19 ng/g. Following the mechanism, under aerobic or anaerobic conditions, E2 will first be oxidized to E1, which is further oxidized to unknown metabolites and finally to CO2 and water (mineralized). EE2 is oxidized to unknown metabolites and also finally mineralized. Theoretically, under anaerobic conditions, EE2 can be reduced to E1 even in environments such as mangrove which is essentially anaerobic. 相似文献
15.
We studied the mesofaunal arthropod diversity in a shrub mangrove in the Punta Sur area within the National Park Reefs of Cozumel Island in the South of Mexico. Two mangrove areas were selected for sampling, dominated by Rhizophora mangle and Avicennia nitida, respectively. Four sampling periods, two during the dry season and two during the rainy season, and 25 random litter samples of litter (225 cm2) per site and date led to a total of 200 samples. Spatial and temporal variation of arthropod diversity was analyzed at the order/suborder level. A total of 90,680 arthropods belonging to 30 taxa were recorded during the study, Oribatida being most abundant with 61.8%, followed by springtails (14%). Densities of arthropods were higher in the rainy season than in the dry season, showing a strong positive correlation with humidity. Highest abundance was found in the R. mangle mangrove in the rainy season, and highest diversity was found in the A. nitida mangrove in the dry season. Seasonal distribution of litter fauna in two mangroves are related with the particular characteristics shown in each one. 相似文献
16.
Twenty eight samples of peat, clay and silty clay from a tin mine exposure near Pantai Remis, Perak, Malaysia, were palynologically analyzed. Six pollen zones and eight subzones were delineated based on the dominant floral components. Accelerator mass spectrometry (AMS) radiocarbon and thermoluminescence datings on selected samples indicate late Pleistocene and older age. The occurrence ofPodocarpus imbricatus pollen suggests that the deposit is no older than late Pliocene. The fluctuation of sea level during the late Pleistocene is believed to be the main factor that influenced the development of vegetation at the Pantai Remis area. The presence of mangrove peat at depths between 13.0 m and 14.0 m, which overlies a freshwaterPandanus peat, indicates the position of a former shoreline at Pantai Remis when the area was inundated sometime during the last interglacial marine incursion. During this period of high sea level, thePandanus swamp was probably being gradually replaced by mangrove vegetation. The mangrove sequence is regarded as equivalent to the Kempadang formation. A slight drop in sea level sometime during the last glacial interstadial stage probably caused a small, open alluvial swamp to be developed over the mangrove forest. This freshwater deposit may be the equivalent of the Simpang formation. 相似文献
17.
This study aimed to access the structure of microbial communities in sediments in the root zone of the red mangrove (Rhizophora mangle) in three sites with an increasing distance from the sea inside a mangrove forest in two distinct periods (dry and wet seasons) using denaturing gradient gel electrophoresis (DGGE). These data were correlated to environmental variables and sediments characteristics by using redundancy analysis (RDA) which revealed that the distribution of the microbial communities is significantly (p < 0.05) influenced by the silt–clay percentages for both Bacteria and Archaea and organic matter content significantly influences the distribution of Archaea. The archaeal community also exhibited an annual clustering pattern. The sites had only 30% and 35% of similarity of bacterial and archaeal communities, respectively, and this could be interpreted as being the core microbiome of R. mangle. Thus the spatial distribution of microbial communities inside the red mangrove habitats seems to be primarily controlled by the abiotic variables of each habitat. 相似文献
18.
E. C. Machado W. Machado L. F. Bellido S. R. Patchineelam A. V. B. Bellido 《Water, air, and soil pollution》2008,192(1-4):77-83
The removal of 65Zn from tidal water by underlaying sediment cores collected in a mangrove forest and a tidal creek that drains this forest in Sepetiba Bay (SE Brazil) was investigated. After 30-h experiments in laboratory microcosms, the 65Zn half-removal times from tidal creek and mangrove forest sediments were 8.7?±?1.8 and 9.2?±?0.9 h respectively. Depth penetration of 65Zn was mainly restricted to the upper 3 cm in mangrove forest cores, while detectable 65Zn activities were found in all layers (0–7 cm depth) of tidal creek cores. An unexpected 65Zn release back to the overlaying water was observed for one of the tidal creek experiments in the 12–18 h interval (corresponding to a return of 17% of the initial 65Zn activity in overlaying water), suggesting a reversibility of the 65Zn removal process (e.g., by adsorption) in tidal creek sediments. The results indicate that mangrove-vegetated sediments allowed a lower vertical mobility of Zn than observed in creek sediments and mangrove sediments appear to be less susceptible to a reversion in the process of zinc removal from overlaying water, suggesting a greater capacity to retain this metal near the water–sediment interface. This first radiotracer approach on the mangrove sediments removal of Zn from tidal waters supports earlier experimental studies employing stable Zn, contributing for a better understanding of the metal uptake kinetics by such sediments and suggesting that these sediments act as active sinks for trace metals. 相似文献
19.
A.P. Méndez Linares J. López-Portillo J.R. Hernández-Santana M.A. Ortiz Pérez O. Oropeza Orozco 《CATENA》2007
This work investigates mangrove tree zonation dynamics in a deltaic fan in the southwestern coast of Mexico. A hypothetical evolution that led to the formation and consolidation of the Arroyo Seco deltaic fan based on the environmental components from the hydrographic basin is proposed. Also, the relief morphogenetic types, along with their sedimentary composition, are derived from geomorphologic and edaphic diagnose methods. Finally, mangrove tree zonation, basal area and height along transects traced parallel to the relief are related to morphogenetic types and to the water table depth during the dry period. There was a clear sedimentological evidence of the accretion process in the deltaic fan. The accretion horizons conditioned the water table, which increased in depth from the margin of the lagoon to the hinterland, thus changing among geoforms. It was much greater at the middle part of the transects, where continental or lagoon water did not infiltrate due to high resistance of clayey soils. The geomorphic zonation of mangrove communities in the Arroyo Seco deltaic fan is: (1) a low fluvial distributary accumulative plain, with coconut palm plantations; (2) a bank fluvial accumulative plain between distributary channels, with coconut palm plantations and patches of low tropical forest; (3) a relatively high swamp accumulative plain, flooded during high water levels, with Avicennia germinans; (4) a low swamp, temporarily flooded accumulative plain, with Rhizophora mangle, Laguncularia racemosa and A. germinans; (5) a very low swamp, permanently flooded accumulative plain, with distributary channels, lateral microbars and tide microdepressions, where Rhizophora and Laguncularia codominate; and (6), a Rhizophora fringe and colonization area along the fan's frontal edge on the same plain. Along this gradient composed of six mangrove communities, basal area and height tended to increase as the water table reached soil level. 相似文献
20.
The effects of microhabitat diversity and geographical isolation on the structure of oribatid communities were studied in mangrove forests on the Ryukyu Islands of Japan. The study took place at three sites on two islands 470 km apart. Oribatid mites (Oribatida) were extracted from leaves, branches, bark of trunks (0-50, 50-100, and 100-150 cm high) and of knee roots, and from forest-floor soil and littoral algae, each defined as a microhabitat of oribatid mites. At the 0-50 cm height, the species composition of the oribatid communities on the knee-root bark and the bark of trunks of Bruguiera gymnorrhiza differed significantly from that on the other microhabitats. This difference was attributed to tidal flooding of the mangrove forests. Cluster analysis showed that oribatid communities in the same microhabitat at different sites tended to be more similar than those on different microhabitats at the same site. This implies that the species composition of oribatid communities in mangrove forests is more likely to be affected by factors responsible for microhabitat diversity (characterized specifically by the flooded trunks) than by geographical distance between the islands. 相似文献