Protein expression profiling in haemocytes and plasma of the Manila clam Ruditapes philippinarum in response to infection with Perkinsus olseni

The protein expression profiling in clam haemocytes and plasma in response to Perkinsus olseni was addressed. Adult Manila clams from a P. olseni‐free bed were experimentally challenged with parasite zoospores to analyse immune response. In another experiment, the effects of longer term infection were assessed in adult clams collected from a P. olseni‐affected bed, by comparing moderate to very heavily infected clams with non‐infected ones. Haemocyte and plasma proteins were separated by two‐dimensional electrophoresis; spot patterns were qualitatively compared between treatments within each experiment and the spots indicating differential protein expression associated with P. olseni challenge or with field infection were processed for protein identification. Fifteen clam proteins (four in haemocytes and eleven in plasma) of which expression was markedly affected by P. olseni were identified. Some of the identified proteins have a well‐known role in clam immune response against the parasite, such as lysozyme and lectins. Rho GTPase‐activating protein 6 could be a marker of resistance against P. olseni, which should be further studied.     

Effect of antiprotozoal drugs on the proliferation of the bivalve parasite Perkinsus olseni

The protozoan parasite Perkinsus olseni causes severe losses among Ruditapes decussatus clams. The development of an in vitro culture of this parasite together with the use of a proliferation assay has provided the opportunity to screen for drug sensitivity of this parasite. Xenobiotics known for their antimalarial and antiprotozoal properties were tested against P. olseni. Only four of these drugs, namely cycloheximide, pyrimethamine, deferoxamine (DFO) and 2,2-bipyridyl (BIP), showed in vitro inhibitory effect on the parasite proliferation. Two in vivo experiments were designed to determine the effect of iron chelators on reducing P. olseni infection in clams. For this purpose, naturally infected clams from the Ria Formosa, Portugal, were exposed to DFO and BIP at various concentrations. In the first experiment, hemolymph samples were taken from each clam before and after treatment to determine the infection intensity and in the second experiment, clams were randomly distributed in groups of five and the parasite burden in treated and untreated groups was determined at the end of the experiment on the whole clam wet tissues. Only DFO was found to be effective in reducing in vivo P. olseni infections. In addition, acute toxicity of DFO and BIP has been determined and no mortality of Perkinsus-free clams was observed.     

Application of enzyme-linked immunosorbent assay (ELISA) for the study of reproduction in the Manila clam Ruditapes philippinarum (Mollusca: Bivalvia): II. Impacts of Perkinsus olseni on clam reproduction

We investigated the effects of infection by the protozoan Perkinsus olseni on the reproduction of female Manila clams, Ruditapes philippinarum, from a population in Gomso Bay, Korea. The reproductive effort of the clams was assessed by ELISA using a clam egg-specific antibody and was expressed as a weight-based gonadosomatic index (GSI). The number of Perkinsus infecting each clam was estimated from the gills using Ray's fluid thioglycollate medium (RFTM) along with a NaOH digestion assay. We found that reproductive effort was negatively correlated with the intensity of the Perkinsus infection: more heavily infected clams produced fewer eggs during the spawning period from May to August. Frequency of spawning was also negatively correlated with the level of Perkinsus infection; heavily infected clams (HIC) exhibited a single spawning pulse in late July, whereas lightly infected clams (LIC) showed three spawning peaks in mid-May, late July, and late August. Egg production of HIC was only 30–75% of LIC during spawning. The level of total protein in LIC was also higher year round than in HIC. In conclusion, our investigation demonstrates that a high level of Perkinsus infection affects spawning frequency and reduces egg production, which may have long-term impacts on clam recruitment and population growth.     

SEM observations on larval shell morphology of Manila clam Ruditapes philippinarum and their utility

Manila clam Ruditapes philippinarum is common and abundant on Japanese tidal flats, forming a commercially important clam fishery. However, annual catches of Manila clam have decreased drastically since 1975?C1985. To study larval recruitment processes of Manila clam, we carried out scanning electron microscopy (SEM) observations on larval and juvenile shells of clams reared at 20 and 24?°C. There was no significant difference in final shell length of trochophores between 20 and 24?°C. However, the larval duration was much longer and the shell length of settled size of pediveligers was much larger for clams reared at 20?°C than those reared at 24?°C. These findings suggest that larval duration and growth, as well as settlement size, may vary markedly depending on temperature (and probably on season). The larval shell morphology of Manila clam can provide essential information about larval recruitment processes.     

Growth,mortality and reproduction of the transplanted Manila clam (Ruditapes philippinarum Adams & Reeve 1850) in Jiaozhou Bay

Samples of Manila clam (Ruditapes philippinarum Adams & Reeve 1850) were collected from May 2004 to April 2005 monthly, and plankton net trawling of planktonic larvae and bottom sediment sampling surveys were further conducted from May to October 2006 in Jiaozhou Bay. Based on the data collected, growth, mortality and reproduction of the transplanted Manila clam and the environmental effects were examined. The results showed that the enhanced clams grew well and showed a growth trend similar to the local wild ones. The main growth periods lasted from April to September, with the water temperature being the main factor affecting the growth, which was the same as that of the wild clams. There were also two reproduction cycles for the farmed Manila clams each year in Jiaozhou Bay and the main breeding period was from May to June. The phenomenon of delayed metamorphosis was quite common through larval development. The farmed clams could spawn when they reached sexual maturity, but they could not perform effective recruitment as many planktonic larvae died during metamorphosis and settlement. A preliminary study indicated that sediment perturbation and marine environment pollution were the main factors causing the death of larvae in the development process.     

Abundance and culture trials of Ruditapes philippinarum (Adam and Reeve, 1850), and abundance of Tellina (Quidnipagus) palatum (Iredale, 1929) at two sites in Kāne'ohe Bay,O'ahu,Hawai'i

Abundance, length‐frequencies and distribution of Ruditapes philippinarum (Manila Clams) and Tellina (Quidnipagus) palatum were measured at two beaches in Kāne'ohe Bay, O'ahu, Hawai'i in June, 2010. Abundances had decreased from 866.2 m^?2 to 3.4 m^?2 for Ruditapes and from 75.5 m^?2 to 1.5 m^?2 for T. palatum since 1977. Distribution of both species was patchy, but both were most commonly found >40 m from shore. Size frequencies of live clams compared with empty shells suggest that few Ruditapes survive to sexual maturity. A similar trend was not detected for T. palatum. Aquaculture trials of R. philippinarum were conducted at the He'eia and Moli'i traditional Hawaiian fishponds in the same bay. The clams failed to thrive, although triploid and diploid Crassostrea gigas performed well in concurrent trials in the same fishponds. Current lower abundances for wild R. philippinarum could be due to factors related to predation or nutrient limitations. Previously, two large sewage outfalls existed at the surveyed clam bed areas which may have temporarily increased nutrient availability for both wild and cultured clams. Current nutrient levels may inhibit Manila clam growth and recruitment in Kāne'ohe Bay.     

Recruitment and movement of the hard clam Meretrix lusoria in a tidal river of northern Kyushu,Japan

Size-frequency distributions of Meretrix lusoria, a commercially important bivalve in Japan, were compared among 6 sites in tidal flats of a small river in Kafuri Bay, northern Kyushu, Japan during 2006–2008. In Kafuri Bay, the hard clam resource is strictly managed and mean biomass of this species on the fishing ground (about 1.5 km²) exceeded 1.5 kg m^?2 in 2008. Small clams (<5 mm in shell length, SL) were most abundant in the border area between the river and the sea, while large clams (>40 mm SL) were rare there. In contrast, in the lower site of the marine area (site L), most clams were >30 mm SL. These results indicate that small clams move from riverine to marine areas with growth (post-settlement movement). Year-round, very small clams (<1 mm SL) were present and clams that were 2–5 mm SL were very rare, although the spawning season is thought to occur in summer. Probably, the early growth of many new recruits is very slow and most may even be <1 mm SL in the next spring, although some clams grow to >5 mm SL in a short period of time.     

Can giant clam (Tridacna squamosa) populations be restored on Singapore's heavily impacted coral reefs?

• 1. Giant clams have been a sustainable resource for millennia, but unregulated harvesting has led to local extinctions within the Indo‐Pacific region. Giant clam mariculture can produce large numbers of juveniles for restocking wild populations where natural recruitment is low or absent.
• 2. Singapore is surrounded by more than 60 small islands, many with fringing reefs. These reefs, however, experience increased turbidity and sedimentation resulting from massive coastal development projects and regular dredging of shipping lanes.
• 3. Seven reefs off Singapore's southern islands were surveyed (9670 m²) for giant clams. Also, an experiment was conducted to determine the growth of Tridacna squamosa reared in aquaria under three light treatments: ～50% ambient photosynthetically active radiation (PAR); ～25% ambient PAR; and ～12% ambient PAR. Finally, 144 clams (T. squamosa) were transplanted to four reefs around Singapore to study survival and growth in a heavily impacted environment.
• 4. A total of 23 adult clams from three species were found during the survey, representing a mean density of 0.24 per 100 m². Most clams were found at Raffles Lighthouse, Singapore's ‘best’ reef. No juvenile clams were encountered. In the aquarium experiment, clam growth was significantly different among the three light treatments, with growth greatest in the ～50% ambient PAR treatment. Of the 144 transplanted clams, 116 (80.6%) were recovered after 7 months. All specimens had increased in size, with growth rates among reefs ranging from 3.3 mm month^?1 (SD=1.3 mm) to 4.8 mm month^?1 (SD=1.6 mm).
• 5. Results suggest that, despite high levels of sedimentation and turbidity on Singapore's reefs, giant clams can survive and grow well. Restocking efforts using maricultured clams may be effective in enhancing the dwindling local populations. It is not clear, however, whether a self‐sustaining community can be established as high sedimentation may hinder larval settlement and survival.

Copyright © 2007 John Wiley & Sons, Ltd.     

Growth of the hard clam Meretrix lusoria in Taiwan

The growth of hard clam Meretrix lusoria in Taiwan was observed as it was grown at six different stocking rates (55, 109, 172, 244, 344 and 455 clams/m²), from November 1979 to September 1980. It was found that the stocking rate had more effect on the increase of the total weight of the clam than on the shell length. Under the environmental condition of the study site, the optimum stocking rate was 244 clams/m². When the net production of the clam was lower than 1103 g/m², the growth of the individual clam was not affected by the stocking rate. But when the net production was higher than 1589 g/m², the growth of the individual clam seemed to be retarded. The average pH of the sea water in the clam culture area was between 7.9 and 8.4. The average dissolved oxygen content was between 4.2 and 11.2 mg/l. And the average water salinity was between 30‰ and 35‰. All these three factors did not seem to have direct relationship with the growth of the clams. Sea water temperature, however, showed great effects on the growth of the clams. It is shown that the growth of the hard clam was slow at a water temperature of 15–18°C, increased at 20–22°C, and accelerated at 25–32°C.     

The effect of shade on water quality parameters and survival and growth of juvenile fluted giant clams, Tridacna squamosa, cultured in a land-based growth trial

Juvenile fluted giant clams, Tridacna squamosa (mean shell length (SL) 15.7 ± 1.9 mm, mean total wet weight (TWW) 0.3 ± 0.1 g), were cultured for 4 months in land-based nursery tanks under four shade regimes (0, 10, 55 and 80 % shade). After 4 months, there were no significant differences in survival which ranged from 98.8 ± 0.1 % in juveniles cultured under 55 % shade to 100.0 ± 0.0 % in the other treatments. The SL of unshaded juveniles was only significantly greater than that of juveniles shaded 55 and 80 %. However, the TWW of juveniles cultured with no shade was significantly greater than that of the juveniles from all other treatments. The mean growth rate of juveniles varied from 5.0 mm month^?1 for juveniles shaded 80 % to 6.9 mm month^?1 for juveniles not shaded. There was no significant difference in mean growth rate of unshaded juveniles and juveniles shaded 10 %, but only the growth rate of juveniles cultured unshaded was significantly greater than that of juveniles shaded 55 and 80 %. The organic tissue content of juveniles cultured either unshaded or shaded 55 % was significantly higher than that of juveniles shaded 80 %. In contrast, the condition index (CI) of juveniles shaded 80 % was significantly higher than the CI of juveniles cultured either unshaded or shaded 55 %. However, there was no significant difference between the CI of juveniles shaded 80 and 10 %. Growth rate of juveniles was significantly correlated with temperature, dissolved oxygen content and flow rate of seawater. While low degrees of shade increase the growth rate of juvenile T. squamosa, they also negatively affect tissue condition. A shade level of 10 % appears to be optimal as it maximises growth and maintains a high CI.     

胶州湾移植底播菲律宾蛤仔的生长和死亡特性

2004年5月至2005年4月对胶州湾菲律宾蛤仔（Rudimpes philippinarum）底播增殖区进行了逐月定点采样，将样品带回放于实验室内水族箱暂养，每站随机取样，共对3269个个体进行了基本生物学特性测定，研究了移植底播菲律宾蛤仔的生长、死亡等渔业生物学特性。结果表明，底播增殖菲律宾蛤仔苗种的平均个体质量0．26g、平均壳长11．1mm；底播蛤仔与野生蛤仔在生长规律上基本一致，春末至秋初（4～9月）是其主要生长期；1～3龄期间个体生长速度较快，1～2龄、2～3龄，个体质量分别增长3．88g和4．02g；1～2龄生物量增长最快，2～3龄由于死亡率增大，其生物量增长缓慢；1～3龄蛤仔软体部的生长速度快于贝壳，5～6月是菲律宾蛤仔的繁殖肥育期。根据个体生长特性，3龄为最佳采捕年龄；根据目前的养殖状况，2龄蛤仔已达到商品规格，从生物量上分析，采捕2龄蛤仔收益最高；6月是最佳的捕获时期。蛤仔生长具有明显的季节变化，水温是影响菲律宾蛤仔生长的主要环境因子。[中国水产科学，2006，13（4）：642—649]     

Recruitment of <Emphasis Type="Italic">Tapes philippinarum</Emphasis> in the Venice Lagoon (Italy) during 2002–2007

Currently, Tapes philippinarum, the Manila clam, is the primary fishery resource for about 1,000 fishermen and aquaculturists in the Venice Lagoon. The recruitment of this clam is a key component supporting shellfish culture industry that is almost completely dependent on the gathering of wild clam seed in nursery areas where the juveniles accrue at high densities as a consequence of favourable environmental conditions. The objective of the present study was to identify the areas optimal for the recruitment of T. philippinarum, herein referred to as nursery areas, and to evaluate the recruitment success each year for the period 2002–2007. Sampling was conducted with a hydraulic dredge at 25 stations, in at least three separate periods from April to September each year for 2002, 2003 and 2004, and at 15 stations for 2005, 2006 and 2007. The zero-year cohorts of this species were usually first detected in bottom samples in late spring (May and June). Some setting appears to occur throughout the summer. The peak of seed density, expressed as number of individuals retained on a 1-mm mesh screen per square metre of sampled substrate, was recorded in September. Measurable fluctuations in annual recruitment have been observed, with peak densities of juveniles in 2002 and 2003 (about 2,000/m²) and minimum densities in 2006 (about 44/m²). In the summer 2007, densities over 30,000/m² were found at the mouth of the River Brenta, immediately adjacent to the southern end of the Venice Lagoon. These intensive, multiyear surveys of this species furnish critical information on seasonal reproduction patterns and recruitment success, which is essential for the rational development of a local fishing master plan and for the formulation of a management strategy for sustainable utilisation of this shellfish resource in the Venice Lagoon.     

Growth Improvement of Shell Length in the Orange Strain of Manila Clam,Ruditapes philippinarum

Mass selection for shell length was conducted in the orange strain of the Manila clam, Ruditapes philippinarum, in this study. Based on the size‐frequency distribution, the clams constituting the largest 10% of the distribution were selected as parents for the selected line. An equal number of clams of the orange strain were randomly chosen as parents for the control line prior to the size selection. The responses to selection and realized heritability were 2.37 and 0.61, respectively. In addition, 97.3% of the progenies inherited the orange shell color. Our results suggest that mass selection for fast growth of shell length in this orange strain of the Manila clam is effective.     

The effects of bioturbation by the Venus clam Cyclina sinensis on the fluxes of nutrients across the sediment–water interface in aquaculture ponds

A mesocosm experiment was conducted to study the effects of bioturbation by the marine bivalve Cyclina sinensis in an aquatic system and to examine how the bioactivities of this clam alter the rate at which nutrients are exchanged across the sediment–water interface. A dark incubation experiment was performed to determine the fluxes of inorganic nutrients (NH₄ ⁺, NO₃ ^? + NO₂ ^? and PO₄ ^3?), benthic chlorophyll a (Chl a), organic matter and sediment oxygen consumption (SOC) on days 1, 10, 20 and 30. C. sinensis destroyed the initial sediment surface and partially enhanced oxygen penetration into the sediment. The clam also increased the water content and volume of the oxic sediment. The analysis showed that increases in the clam density and time period produced higher fluxes of all the nutrients (NH₄ ⁺, NO₃ ^? + NO₂ ^? and PO₄ ^3?) in the bioturbated chambers compared with the control (non-bioturbated chambers). The concentration of Chl a in the sediment increased significantly at the end of the experiment (day 30) (p < 0.05). The SOC rate increased significantly with the increase in density and with the time period from day 10 to day 30 (p < 0.05). As a result, the fluxes of nutrients increased with increased SOC, producing oxygen-induced sediment mineralization. Our findings suggest that the activities of the clams could positively influence SOC and cause an increase in the fluxes of inorganic nutrients. These effects may substantially improve the primary productivity and water quality of earthen pond ecosystems.     

Expression and localization of MCsialec, a sialic acid-specific lectin in the marine bivalve Manila clam, Ruditapes philppinarum

A novel sialic acid-specific lectin (MCsialec) was detected from an expressed sequenced tag (EST) sequence from Manila clam haemocytes infected with Perkinsus olseni. The cDNA of the lectin was cloned using gene-specific primers based on a previously determined EST and characterized. The full-length cDNA of MCsialec is 603 bp in length and encodes a polypeptide of 200 amino acids with a calculated molecular mass of 21.928 kDa. Sequence alignment and protein motif analyses showed that MCsialec shares identity with sialic acid-specific invertebrate lectins from Cepaea hortensis, Helix pomatia and Haliotis discus discus. The lectin was expressed in Escherichia coli M15 cells and purified using a Ni-NTA His-binding resin matrix for antibody production. The presence of the lectin in various tissues of Perkinsus-infected and uninfected Manila clams was analysed by both PCR and immunohistochemical localization assays. MCsialec was detected in each tissue of the clams; however, upon infection, the level of expression of the lectin increased in each tissue. Vibrio tapetis infection also induced high-level expression of MCsialec in the haemocytes. These data suggest that MCsialec plays a crucial role in the immune system of the Manila clam during pathogenic infection.     

Seasonality of QPX disease in the Raritan Bay (NY) wild hard clam (Mercenaria mercenaria) population

Quahog Parasite Unknown (QPX) is a potentially lethal pathogen of the hard clam Mercenaria mercenaria along the northeastern coast of the United States. In the Raritan Bay wild clam population, QPX prevalence and infection intensity at three sites were examined by both histology and quantitative PCR in 2006. At two of three sites, QPX infection showed a seasonal pattern, with prevalence and weighted prevalence increasing through the spring, peaking in the summer and declining in the fall, while at the other site, the highest QPX prevalence and infection intensity were observed in the spring although overall prevalence at this site was generally low. Our data suggested that temperature may be an important environmental factor regulating the seasonal pattern of QPX disease in wild clams but also demonstrated that seasonal patterns vary from site to site, possibly linked to the clam density or other environmental factors. Over‐winter sampling and further investigations focusing on environmental factors, clam density and clam mortality as related to QPX infection are needed to better characterize and understand the seasonality of QPX disease.     

b-1,3-葡聚糖对副溶血弧菌感染菲律宾蛤仔(Ruditapes philippinarum)的存活及两种免疫基因表达影响

本文以菲律宾蛤仔(Ruditapes philippinarum)为材料,开展了不同浓度b-1,3-葡聚糖对正常菲律宾蛤仔及副溶血弧菌(Vibrio parahaemolyticus)感染后蛤仔的存活率和凝集素基因(Lectin)、Toll样受体2基因(TLR2)的表达研究。结果显示,b-葡聚糖浸泡蛤仔可以有效提高副溶血弧菌感染后蛤仔的存活率,在1000 mg/L浓度下,存活率最高,未感染组的鳃组织中,TLR2在6 h时达到峰值,显著高于其他时间(P<0.05)。在感染组中,TLR2呈先升高后降低的趋势,在1.5 h时达到峰值。感染组和未感染组的Lectin表达均为先升高后下降趋势。在3 h时,100 mg/L未感染组的Lectin相对表达量显著高于100 mg/L感染组(P<0.05)。在外套膜中,感染组和未感染组TLR2在3~12 h之间表达量逐渐降低。在24 h时,1000 mg/L未感染组表达量最高。感染组Lectin在外套膜中,浓度为1000 mg/L的实验组比100 mg/L实验组各时段都有更高的表达量,但只有0和24 h时差异显著(P<0.05)。蛤仔鳃和外套膜Lectin的表达模式不同,但b-葡聚糖的浸泡都促进了Lectin在感染初期的表达。从结果上看,b-葡聚糖的浸泡会增加这2种基因的相对表达,被b-葡聚糖浸泡过的蛤仔被副溶血弧菌感染后,会更为快速地表达TLR2和Lectin。本研究旨在通过不同浸泡浓度b-葡聚糖对蛤仔存活及免疫基因表达的影响,初步了解b-葡聚糖对蛤仔免疫力的作用,为蛤仔亲贝的保种、苗种繁育及池塘养殖的疾病防控提供一定的理论依据。     

Growth and survival of hatchery-bred giant clams (<Emphasis Type="Italic">Tridacna gigas</Emphasis>) in an ocean nursery in Sagay Marine Reserve,Philippines

To restore the diminishing population of the giant clam Tridacna gigas in Sagay Marine Reserve (SMR), Negros Occidental, central Philippines, two size classes [8- and 10-cm shell length (SL)] of hatchery-bred T. gigas were reared in an adjacent ocean nursery for restocking to Carbin Reef later upon reaching grow-out size of ≥20 cm SL. Growth rates did not significantly differ for both sizes and were on average 0.67 cm month⁻¹. However, survival after 382 days of rearing T. gigas was significantly higher in the 10-cm SL clams than the 8-cm SL clams (96 and 83%, respectively). For future restocking projects, the use of 8-cm SL clams is recommended because the lower survival of this size class is compensated by its cheaper price. While rearing the clams to attain grow-out size, the population of wild clams (Family Tridacnidae) in Carbin Reef was assessed using ten 50 × 2-m belt transects. Four species of tridacnid clams have been recorded: Hippopus hippopus, Tridacna crocea, T. maxima, and T. squamosa. T. crocea comprised 12.5–93.9% of all the clams observed in all ten transects. There was a significant difference in clam density between species (ANOVA, F = 6.94, P < 0.001), with T. crocea having the highest density. Living T. gigas were absent, but presence of dead shells was indicative of its presence in the reef in the past. It can be expected that the release of hatchery-bred T. gigas juveniles in Carbin Reef could provide future breeders that will repopulate this reef and the adjacent reef communities.     

Accumulation flux of nitrogen in mudflats and its implications for benthic shellfish culture

In order to evaluate impacts of benthic shellfish culture on sediments in the Daguhe Estuary, surface sediments are sampled in February, May, August and November 2009 and the water content and nitrogen content of sediment, accumulation flux of nitrogen are studied. About 40 % of the mudflat in the estuary is used for bottom sowing culture for Manila clam Ruditapes philippinarum. The seeding density is 1.1–1.5 kg m^?2 in the estuary if the mean weight of juvenile clam is 0.3–0.5 g. Moreover, the stock density of cultivated clam that can be harvested (with mean weight 8 g) is 450–1,600 individual m^?2, and the annual yield of this species of clam is about 3.4 kg m^?2. There is significant spatial difference of water content of sediment from February to November, during which the water content in the uncultured mudflat, the cultured mudflat and the river way is 32.07, 43.95 and 37.69 %, respectively. There is no significant spatial difference of TN (total nitrogen) content of sediment, and the TN content in the cultured mudflat, the uncultured mudflat and the river way is 0.26, 0.22 and 0.29 mg g^?1, respectively. Moreover, the IN (inorganic nitrogen) content of sediment in the cultured mudflat, the uncultured mudflat and the river way is 0.09, 0.08 and 0.14 mg g^?1, which implies that there is no significant spatial difference of IN content. Furthermore, there is no significant spatial difference of EN (exchangeable nitrogen) content of sediment from February to November, during which the EN content in the uncultured mudflat or the river way is about 0.04 μg g^?1 and it is 0.03 μg g^?1 in the cultured mudflat. Thus, the benthic shellfish culture may increase the water content and there is no significant effect of benthic shellfish culture on nitrogen content. The accumulation flux of TN in the cultured mudflat, the uncultured mudflat and the river way is 0.94, 1.13 and 1.40 mg cm^?2 year^?1. The accumulation flux of IN in the cultured mudflat, the uncultured mudflat and the river way is 0.31, 0.39 and 0.66 mg cm^?2 year^?1. Moreover, the accumulation flux of EN in the uncultured mudflat and the river way is nearly equal, which is 0.21 and 0.20 μg cm^?2 year^?1, respectively. The accumulation flux of EN in the cultured mudflat is 0.10 μg cm^?2 year^?1. Thus, the benthic shellfish culture in the estuary does not enhance the accumulation of TN or IN. Nevertheless, it may reduce the accumulation of EN. Furthermore, it is cautious to evaluate the effect of benthic shellfish culture on sediments by the nitrogen content only. The accumulation flux of nitrogen may be one better index to evaluate the impact.     

Invasive Asian clam distribution pattern reveals minimal constraints to downstream dispersal and imperceptible ecological impacts

相似文献