Takehiko Hiwatari

Crude oil bioremediation field experiment in the Sea of Japan.

Experimental bioremediation of crude oil was conducted for approximately 3 months in the intertidal zone of the Sea of Japan, Hyogo Prefecture. Artificial mixtures of weathered Arabian light crude oil and sand taken from the experimental site were wrapped in polyester net envelopes. The envelopes were placed in drum-shaped acrylic vessels with perforated sides to facilitate seawater exchange. The vessels were laid in the intertidal area. Slow release nitrogen and phosphorus synthetic fertilizer granules were added to the oil-sand mixtures in three different amounts. Some oil-sand mixtures were unfertilized controls. The oil-sand mixtures were periodically sampled and changes in the composition of the residual oils were monitored. Oil samples were subjected to gas chromatography coupled with mass spectrometry for analysis of some representative semi-volatile aliphatic and aromatic compounds. All values for each analyte were normalized against that of hopane to evaluate the extent of oil biodegradation. Significant increases in the concentrations of both nitrogen and phosphorus were found in the fertilized sections in accordance with the amounts of added fertilizers. Although significant natural attenuation of oil was observed in the unfertilized sections, fertilization stimulated the degradation rate of the oil in the early stage of the experimental term. The extent of the oil biodegradation increased as the amount of added fertilizer increased. However, the final degradation efficiencies for each oil component in the fertilized sections were not significantly different from those in the unfertilized sections, and the degradation of each oil component had almost ceased after 6 weeks. We conclude that excessive amounts of macronutrients are required to accelerate oil biodegradation and that fertilization is only effective in the early stages.

Abundance and Population Structure of Ammonia-Oxidizing Bacteria That Inhabit Canal Sediments Receiving Effluents from Municipal Wastewater Treatment Plants

ABSTRACT A polyphasic, culture-independent study was conducted to investigate the abundance and population structure of ammonia-oxidizing bacteria (AOB) in canal sediments receiving wastewater discharge. The abundance of AOB ranged from 0.2 to 1.9% and 1.6 to 5.7% of the total bacterial fraction by real-time PCR and immunofluorescence staining, respectively. Clone analysis and restriction endonuclease analysis revealed that the AOB communities influenced by the wastewater discharge were dominated by Nitrosomonas, were similar to each other, and were less diverse than the communities outside of the immediate discharge zone.

Natural water-purification system observed in a shallow coastal lagoon: Matsukawa-ura, Japan.

Field surveys and in situ experiments were conducted in the shallow Matsukawa-ura in summer to evaluate the biological efficiencies of shallow-water areas for preserving coastal ecosystems. In Matsukawa-ura (5.8 km(2)), the suspension-feeding bivalves Ruditapes philippinarum and Crassostrea gigas were the dominant animals--their total biomasses (wet weight) were estimated to be 3.4 x 10(6) and 2.3 x 10(6) kg, respectively. Ulva sp. and Zostera marina were the dominant macrophyte species during the summer, with standing crops estimated to be 0.29 x 10(6) and 0.20 x 10(6) kg, respectively. The dissolved inorganic nitrogen (DIN) uptake rates for Ulva sp. and Z. marina were determined by in situ experiments. An ecological model calculated on the basis of the observed dataset showed that, in comparison with tidal exchange, a significant amount of particulate organic matter was removed by bivalve filtration and a considerable quantity of DIN was removed by macrophyte species.

Intrinsic Biodegradation of Heavy Oil from Nakhodka and the Effect of Exogenous Fertilization at a Coastal Area of the Sea of Japan

We performed a field experiment in thebiodegradation of heavy oil spilled from the Russian tankerNakhodka on a beach in the Sea of Japan. We collectedoil-contaminated cobbles and treated half with nitrogen andphosphorus slow-release fertilizers to stimulate microbialdegradation of the oil; the other half acted as unfertilizedcontrols. The cobbles were placed in porous acrylic vessels andsubmerged. We monitored changes in the oils, macronutrients,microbial community structure and amount of chlorophyll a. There were no significant differences in these criteriabetween the fertilized and unfertilized vessels, apart from anincrease in chlorophyll a in the fertilized vessels.However, there was a major intrinsic degradation of semi-volatile oil compounds in the unfertilized vessels; this occurred at a rate similar to that in the fertilized vessels, despite the low concentration of macronutrients in the seawater at the site.

Influences of Storm Water and Combined Sewage Overflow on Tokyo Bay

We conducted field surveys in Tokyo Bay, Japan, to monitor the influences of storm water and combined sewage overflow. Considerable increases in both fecal markers and detritus particulate organic carbon were observed in surface waters concomitant with low salinity and high turbidity (flood survey) compared with the control survey conducted under clear weather. Based on the ratio of coprostanol concentrations in freshwater status (salinity 0) during the flood survey to those during the control survey, the extent of the increase in the pollution concentrations into Tokyo Bay via both storm water and combined sewage overflow was approximately double.

Exotic hard clam in Tokyo Bay identified as Mercenaria mercenaria by genetic analysis

An exotic hard clam has been observed in Tokyo Bay since the mid-1990s, which has been morphologically identified as Mercenaria mercenaria. The authors have determined 444-bp partial nucleotide sequences of mitochondrial DNA (mtDNA) 16S rRNA gene of 31 hard clam individuals collected in three locations of Tokyo Bay. Phylogenetic analysis indicated all individuals to be M. mercenaria. Two shell interior colorations (white or purple) were observed, but no relationships between the colorations and mtDNA haplotypes were detected. Frequency of clam individuals having white or purple shell significantly differed among locations, which was accompanied by heterogeneous amounts of acid-volatile sulfides and organic matter and mud ratio.