Your search keyword '"Yu Umezawa"' showing total 22 results

1. Estimation of spatiotemporal variations in nutrient fluxes from sediments in the seasonally hypoxic Omura Bay, Japan

Author

Hirokazu Suzaki, Hideaki Nakata, Minoru Wada, Kazumi Matsuoka, Yu Umezawa, Naoki Muta, Akira Yamaguchi, and Kazuaki Kawamoto

Subjects

0106 biological sciences, chemistry.chemical_classification, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, Sediment, Nutrient flux, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Pore water pressure, Water column, Nutrient, chemistry, Environmental chemistry, Environmental science, Organic matter, Bay, Water Science and Technology

Abstract

In the seasonally hypoxic semi-enclosed Omura Bay, Japan, regression equations estimating year-round nutrient [NO3 + NO2, NH4, PO4, Si(OH)4] concentrations in pore water were successfully constructed based on water temperature and the concentration of biogenic elements in surface sediments, except for NH4 and PO4 concentrations in summer when the hypoxic water mass develops. Core incubation studies revealed that pore water NH4 and PO4 concentrations under anaerobic conditions increased 1.4–2.2 and 1.8–2.1 times, respectively, above levels estimated with the regression equations. These were in good agreement with the values observed in the field during summer. The gradient in nutrient concentrations between the measured values in the overlying water column and the estimated values in the pore water revealed that spatial fluctuations in nutrient fluxes at the sediment–water interface across the Omura Bay ranged from 1.5 to 2 times, reaching up to 3–4 times in the summer. Annual nutrient fluxes from the sediment (690–780 ton-N year−1 for DIN, 77–85 ton-P year−1 for DIP, and c.a. 4700 ton-Si year−1 for DSi) were comparable to those from terrestrial areas. Accurate estimation of internal loadings is essential to properly evaluate residual nutrients and organic matter in the water column and their effect on aquatic ecosystems.

Published

2019

2. Hypoxic water mass in the highly turbid well-mixed macrotidal Rokkaku River Estuary, Ariake Sea, Japan

Author

Fumiaki Mori, Naoki Fujii, Akito Nakamura, Yu Umezawa, Yuichi Hayami, and Minoru Wada

Subjects

0106 biological sciences, chemistry.chemical_classification, geography, Suspended solids, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, δ13C, 010604 marine biology & hydrobiology, chemistry.chemical_element, Hypoxia (environmental), Estuary, Aquatic Science, Oceanography, 01 natural sciences, Oxygen, Water column, chemistry, Environmental chemistry, Environmental science, Organic matter, Turbidity, 0105 earth and related environmental sciences

Abstract

Hypoxic water masses are usually formed in the bottom layer of stratified water columns. However, we found that hypoxia was formed throughout the water column in a well-mixed macrotidal estuary, the Rokkaku River Estuary, Japan. There was a spring-neap variation in the dissolved oxygen (DO) concentration where hypoxia developed during spring tides. Minimum DO concentration was observed 1 or a few days after the spring tide. When hypoxia developed, all the water column from bottom to surface became hypoxic ( 2 mg l−1 day−1). Potential oxygen consumption by microorganisms was positively correlated with turbidity. Concentration of suspended solid (SS) at the ETM exceeded 1000 mg l−1. Furthermore, particulate organic carbon (POC) concentration in the estuary increased in spring tides. C/N ratio and δ13C of organic matter suggested that POC was transported from the sea into the estuary. These results suggest that the active resuspension of organic matter caused by the strong tidal current during spring tides enhanced the respiratory activity of microorganisms and the main source of the organic matter was detrital material from the sea. Such a large amount of organic matter should fuel microbial respiration effectively. Since microbial oxygen consumption was larger than the oxygen supply from the water surface even in the well mixed condition, a hypoxic water mass was formed in this estuary.

Published

2019

3. Nitrogen burden from atmospheric deposition in East Asian oceans in 2010 based on high-resolution regional numerical modeling

Author

Kentaro Hayashi, Yu Umezawa, Itsushi Uno, Syuichi Itahashi, Kazuhide Matsuda, Tatsuya Sakurai, and Shigenobu Takeda

Subjects

inorganic chemicals, China, 010504 meteorology & atmospheric sciences, Nitrogen, Health, Toxicology and Mutagenesis, Oceans and Seas, chemistry.chemical_element, Numerical modeling, High resolution, 010501 environmental sciences, Toxicology, Atmospheric sciences, 01 natural sciences, Nitric Acid, East Asia, NOx, 0105 earth and related environmental sciences, Air Pollutants, Pelagic zone, General Medicine, Pollution, Deposition (aerosol physics), chemistry, Yangtze river, Environmental science, Environmental Monitoring

Abstract

East Asian oceans are possibly affected by a high nitrogen (N) burden because of the intense anthropogenic emissions in this region. Based on high-resolution regional chemical transport modeling with horizontal grid scales of 36 and 12 km, we investigated the N burden into East Asian oceans via atmospheric deposition in 2010. We found a high N burden of 2–9 kg N ha-1 yr-1 over the Yellow Sea, East China Sea (ECS), and Sea of Japan. Emissions over East Asia were dominated by ammonia (NH3) over land and nitrogen oxides (NOx) over oceans, and N deposition was dominated by reduced N over most land and open ocean, whereas it was dominated by oxidized N over marginal seas and desert areas. The verified numerical modeling identified that the following processes were quantitatively important over East Asian oceans: the dry deposition of nitric acid (HNO3), NH3, and coarse-mode (aerodynamic diameter greater than 2.5 μm) NO3-, and wet deposition of fine-mode (aerodynamic diameter less than 2.5 μm) NO3- and NH4+. The relative importance of the dry deposition of coarse-mode NO3- was higher over open ocean. The estimated N deposition to the whole ECS was 390 Gg N yr-1; this is comparable to the discharge from the Yangtze River to the ECS, indicating the significant contribution of atmospheric deposition. Based on the high-resolution modeling over the ECS, a tendency of high deposition in the western ECS and low deposition in the eastern ECS was found, and a variety of deposition processes were estimated. The dry deposition of coarse-mode NO3- and wet deposition of fine-mode NH4+ were the main factors, and the wet deposition of fine-mode NO3- over the northeastern ECS and wet deposition of coarse-mode NO3- over the southeastern ECS were also found to be significant processes determining N deposition over the ECS.

Published

2021

4. Evaluation of origin-depended nitrogen input through atmospheric deposition and its effect on primary production in coastal areas of western Kyusyu, Japan

Author

Shigenobu Takeda, Ichiro Tayasu, Kazuaki Kawamoto, Kanae Toyoshima, Akira Yamaguchi, Chikage Yoshimizu, Kei Tamura, Chiaki Tamaya, Yu Umezawa, and Yu Saitoh

Subjects

chemistry.chemical_classification, Wet season, Nitrogen, Asian Dust, Oceans and Seas, Health, Toxicology and Mutagenesis, fungi, Stratification (water), General Medicine, Toxicology, Pollution, Oceanography, Nutrient, Japan, chemistry, Phytoplankton, Environmental science, Organic matter, Precipitation, Air mass, Environmental Monitoring

Abstract

Long term monitoring of atmospheric wet and dry depositions and associated nutrients fluxes was conducted on the coast of Japan facing the East China Sea continuously for 1 year and 2 months, with the origin of air mass investigated based on isotope analyses (Sr, Nd, and NO3). During the same period, intensive observations of ocean conditions and the chemical composition of sinking particles collected using sediment traps were conducted to investigate the effects of atmospheric deposition-derived nutrients on phytoplankton blooms. Dry-deposition-derived nutrient inputs to the surface ocean were larger during autumn to spring than in summer due to the effect of continental air mass occasionally carrying Asian dust (yellow sand). However, these nutrients fluxes were limited (1.1–1.5 mg-N m−2 day−1 on average) and didn't appear to cause phytoplankton blooms through the year. Although average dissolved inorganic nitrogen (DIN) concentrations in rainwater were lower in oceanic air masses compared to continental air masses, wet-deposition-derived nutrient inputs to the surface ocean on rainy days during the summer (26.0 mg-N m−2 day−1 on average) were large due to higher precipitation from oceanic air masses. Wet-deposition-derived nutrients significantly increased nutrient concentrations in the surface ocean and seemed to cause phytoplankton blooms in the warm rainy season when nutrients in the surface were depleted due to increased stratification. The increase in phytoplankton biomass was reflected in increased particle sinking into the bottom layer, as well as changing chemical characteristics. The supply of flesh phytoplankton-derived labile organic matter into the bottom layer could be expected to promote rapid bacterial decomposition and contribute to the formation of hypoxic water masses in early summer when the ocean was strongly stratified. Atmospheric deposition-derived nutrients in East Asia will have important impacts on not only the oligotrophic outer ocean but also surrounding coastal areas in the warm rainy season.

Published

2021

5. Geographic Variation of Particle Size Distribution in the Kuroshio Region: Possible Causes in the Upper Water Column

Author

Yosuke Yamada, Toshi Nagata, Yu Umezawa, and Hideki Fukuda

Subjects

Chlorophyll a, Science, chlorophyll a, nanophytoplankton, Ocean Engineering, QH1-199.5, Aquatic Science, Oceanography, Atmospheric sciences, Latitude, chemistry.chemical_compound, Water column, Nanophytoplankton, Phytoplankton, Water Science and Technology, Global and Planetary Change, transparent exopolymer particles (TEP), particle aggregation, General. Including nature conservation, geographical distribution, slope of particle size distribution, Particle aggregation, chemistry, Particle-size distribution, Kuroshio, Environmental science, Hydrography

Abstract

Particle size distribution (PSD) in the ocean is a fundamental property that influences carbon export and food webs; however, PSD variation and its causes in oligotrophic oceans are not entirely clear. Here, we used Laser In-Situ Scattering and Transmissometry to investigate PSD (size range 5.2–119 μm) and related variables at 11 stations in the surface layer (0–20 m) of the Kuroshio region of the western North Pacific, where strong current causes dynamic hydrographic and ecological conditions. PSD slopes (range –3.2 to –4.2), derived from the power law model, were steeper at onshore stations and flatter at oligotrophic stations located offshore and at lower latitudes. Notably, slopes tended to become steeper with increasing chlorophyll a concentration, opposing the generally observed relationship between the two variables, whereas they became flatter with increasing transparent exopolymer particle (TEP) concentration. Possible explanations of the above results are localized occurrence of nanophytoplankton and TEP facilitation of particle aggregation. The results support the hypothesis that PSD slopes are controlled by a multitude of factors, including phytoplankton community dynamics and aggregation processes. To determine whether TEP-induced particle aggregation enhances or suppresses carbon export, we need a better understanding of the nature (porosity, density, and sinking velocity) of aggregates in oligotrophic oceans.

Published

2021

6. Temporal dynamics of dissolved organic carbon (DOC) produced in a microcosm with red tide forming algae Chattonella marina and its associated bacteria

Author

Satoshi Takeshita, Yuka Ohtake, Saki Nagae, Tatsuya Oda, Yu Umezawa, Makoto Yoshida, Shinichi Nakamura, Yukiko Takano, Yukihiko Matsuyama, Minoru Wada, and Mitsunori Iwataki

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_classification, biology, 010604 marine biology & hydrobiology, Red tide, fungi, Hypoxia (environmental), Raphidophyte, Oceanography, biology.organism_classification, 01 natural sciences, Algal bloom, 03 medical and health sciences, 030104 developmental biology, Algae, chemistry, Environmental chemistry, Dissolved organic carbon, Organic matter, Bloom

Abstract

Acute and severe hypoxia associated with harmful algal bloom has become one of the major causes for the environmental deterioration of coastal areas. Although it is generally thought that a large part of the dissolved oxygen consumption at a bloom site is initiated by heterotrophic bacteria that attack organic matter derived from dead or dying algal cells, precise microbial processes leading to the hypoxia are yet to be examined. Here we show temporal dynamics of extracellular dissolved organic carbon (DOC) of the red tide forming raphidophyte Chattonella marina and bacterial populations associating with the algae under laboratory conditions. During the growth of non-axenic strains of C. marina, we monitored abundance of algae, associated bacteria, and DOC in the culture media. Bacterial cell abundance increased in response to the increase in DOC both at the beginning and the late log phase of the algal growth. Flow cytometric analysis revealed that transient increase in the percentage of respiratory-active bacterial cells also coincided with the timing of the increase in bacterial abundance and DOC. These results strongly suggest that DOC released from growing C. marina fuels respiration and growth of planktonic bacteria surrounding the algae. This has implications for the role of DOC released from C. marina bloom before the collapse in mediating interactions between neighboring algae and bacterial assemblage which may eventually lead to algal bloom-associated hypoxia.

Published

2017

7. Macroalgal metabolism and lateral carbon flows create extended atmospheric CO2 sinks

Author

Hirotada Moki, Tomohiro Kuwae, Kenta Watanabe, Masakazu Hori, Goro Yoshida, and Yu Umezawa

Subjects

Total organic carbon, chemistry, Environmental chemistry, Dissolved organic carbon, Alkalinity, Carbon sink, Environmental science, chemistry.chemical_element, Ecosystem, Carbon sequestration, Surface water, Carbon

Abstract

Macroalgal beds have drawn attention as one of the vegetated coastal ecosystems that act as atmospheric CO2 sinks. Although macroalgal metabolism as well as inorganic and organic carbon flows are important pathways for CO2 sequestration by macroalgal beds, the relationships between macroalgal metabolism and associated carbon flows are still poorly understood. In the present study, we investigated carbon flows, including air–water CO2 exchange and budgets of dissolved inorganic carbon, total alkalinity, and dissolved organic carbon (DOC) in a temperate macroalgal bed during productive months of the year. To assess the key mechanisms of CO2 sequestration by the macroalgal bed, we estimated macroalgal metabolism and lateral carbon flows using a field-bag method, a degradation experiment, and mass balance modelling over a diurnal cycle. Our results showed that macroalgal metabolism and lateral carbon flows driven by water exchange affected air–water CO2 exchange in the macroalgal bed and the surrounding waters. Macroalgal metabolism caused overlying waters to contain low concentrations of CO2 and high concentrations of DOC that were efficiently exported offshore from the macroalgal bed. The exported water lowered CO2 concentrations in the offsite surface water and enhanced atmospheric CO2 uptake. Our findings suggest that macroalgal beds in habitats associated with high water exchange rates can create extensive CO2-sinks around them.

Published

2019

8. Potential oxygen consumption and community composition of sediment bacteria in a seasonally hypoxic enclosed bay

Author

Gregory N. Nishihara, Yu Umezawa, Minoru Wada, Ryuji Kondo, and Fumiaki Mori

Subjects

Enclosed bay, INT, chemistry.chemical_element, Marine Biology, Coastal hypoxia, Microbiology, Oxygen, General Biochemistry, Genetics and Molecular Biology, Bacterial community composition, Gammaproteobacteria, Sulfate-reducing bacteria, Hypoxia, Molecular Biology, Incubation, Relative species abundance, Arcobacter, Ecology, Aquatic and Marine Chemistry, biology, Chemistry, General Neuroscience, Sediment, Hypoxia (environmental), General Medicine, biology.organism_classification, Sediment oxygen consumption, Environmental chemistry, Medicine, General Agricultural and Biological Sciences, Bay

Abstract

The dynamics of potential oxygen consumption at the sediment surface in a seasonally hypoxic bay were monitored monthly by applying a tetrazolium dye (2-(4-iodophenyl)-3-(4-nitrophenyl)-5-phenyl-2H-tetrazolium chloride [INT]) reduction assay to intact sediment core samples for two consecutive years (2012–2013). Based on the empirically determined correlation between INT reduction (INT-formazan formation) and actual oxygen consumption of sediment samples, we inferred the relative contribution of biological and non-biological (chemical) processes to the potential whole oxygen consumption in the collected sediment samples. It was demonstrated that both potentials consistently increased and reached a maximum during summer hypoxia in each year. For samples collected in 2012, amplicon sequence variants (ASVs) of the bacterial 16S rRNA genes derived from the sediment surface revealed a sharp increase in the relative abundance of sulfate reducing bacteria toward hypoxia. In addition, a notable shift in other bacterial compositions was observed before and after the INT assay incubation. It was Arcobacter (Arcobacteraceae, Campylobacteria), a putative sulfur-oxidizing bacterial genus, that increased markedly during the assay period in the summer samples. These findings have implications not only for members of Delta- and Gammaproteobacteria that are consistently responsible for the consumption of dissolved oxygen (DO) year-round in the sediment, but also for those that might grow rapidly in response to episodic DO supply on the sediment surface during midst of seasonal hypoxia., PeerJ, 9, art. no. e11836; 2021

Published

2021

9. Potential contribution of microalgal intracellular phosphorus to phosphorus distribution in tidal flat sediments during winter

Author

Mikio Sayama, Minoru Wada, Yu Umezawa, and Akira Yamaguchi

Subjects

Chlorophyll a, Ariake Bay, Intracellular phosphorus pool, Ecology, Phosphorus, chemistry.chemical_element, Sediment, Intertidal zone, Aquatic Science, Biology, Oceanography, Anoxic waters, chemistry.chemical_compound, Nutrient, chemistry, Intertidal mudflat, Redox condition, Phytoplankton, Microalgae, Bay, Ecology, Evolution, Behavior and Systematics

Abstract

Phosphorus (P) supplies from the sediment are important when evaluating the impacts of nutrient dynamics on the ecosystem. Many studies have reported P dynamics based on gradients of pore water (PW)-phosphate (Formula presented) concentrations at the sediment?water interface and iron-related abiotic reactions in response to redox conditions. However, the aim of the present study is to evaluate the contributions of intracellular (IC)-P and marine organism-mediated reactions to P-dynamics under variable environmental conditions. The focus of this study is the intertidal mudflat habitat of the innermost part of Ariake Bay, Kyushu, Japan, during winter. The vertical distribution of several forms of P fraction [i.e. PW- and IC-dissolved inorganic/organic-P (DIP/DOP), and particulate inorganic/organic-P (PIP/POP)], the number of microalgae and bacteria, and chlorophyll a concentrations in the sediment were measured. The results obtained revealed that the IC-P pool, especially IC-DOP, accounted for 76% of the total dissolved P in the surface sediment layer, mainly associated with the microphytobenthos. Additionally, phytoplankton, which comprised more than 60% of the surface microalgae in tidal-flat sediments, are considered to carry river-derived-P to the intertidal flats via inner bay-specific physical movements and disturbances. Incubation experiments on mud sediment under oxic/anoxic conditions suggest that dissolved P fluxes between the IC pool and PW occur actively in response to redox conditions, according to the balance between microalgal uptake and bacterial degradation. These results indicate that evaluation of the IC-P pool is indispensable to understanding P cycling in intertidal mudflats, and that microalgae could play important roles not only as food sources, but also as P reservoirs and sources of (Formula presented)., Plankton and Benthos Research, 10(1), pp.1-10; 2015

Published

2015

10. Seasonal shifts in the contributions of the Changjiang River and the Kuroshio Current to nitrate dynamics in the continental shelf of the northern East China Sea based on a nitrate dual isotopic composition approach

Author

Yasuhiro Morii, Joji Ishizaka, Yu Umezawa, Takashi Aoshima, Chikage Yoshimizu, Hiroshi Yoshimura, Ichiro Tayasu, Takamasa Hasegawa, Nobuhiro Yamawaki, and Atsuko Yamaguchi

Subjects

Water mass, geography, geography.geographical_feature_category, Continental shelf, lcsh:QE1-996.5, Drainage basin, lcsh:Life, Salinity, Bottom water, lcsh:Geology, chemistry.chemical_compound, lcsh:QH501-531, Oceanography, Nitrate, chemistry, lcsh:QH540-549.5, Phytoplankton, Environmental science, lcsh:Ecology, Surface water, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes

Abstract

The northern East China Sea (ECS) serves as a spawning and nursery ground for many species of fish and squid. To clarify the basis of the food web in the northern ECS, we examined the nitrate (NO3) dynamics along four latitudinal transects based on stable nitrogen and oxygen isotopes of NO 3 (δ15NNO3 and δ18ONO3) and temperature-salinity dynamics in both winter (February 2009) and summer (July 2009 and July 2011). The δ15NNO3 and δ18ONO3, which were distinctly different among the potential NO3 sources, were useful for clarifying NO3 sources and its actual usage by phytoplankton. In winter, Kuroshio Subsurface Water (KSSW) and the Yellow Sea Mixed Water (YSMW) predominantly contributed to NO3 distributed in the shelf water. In the surface water of the Okinawa Trough, NO3 from the KSSW, along with a temperature increase caused by an intrusion of Kuroshio Surface Water (KSW), seemed to stimulate phytoplankton growth. In summer, Changjiang Diluted Water (CDW), Yellow Sea Cold Water Mass (YSCWM), and KSSW affected the distribution and abundance of NO 3 in the northern ECS, depending on precipitation in the Changjiang drainage basin and the development of the YSCWM in the shelf bottom water. Although isotopic fractionation during NO3 uptake by phytoplankton seemed to drastically increase δ15NNO3 and δ18ONO3 in summer, relatively light nitrate with δ15NNO3 lower than expected from this fractionation effect might be explained by contribution of atmospheric nitrogen and/or nitrification to NO3 dynamics in the surface and subsurface layers. If the latter were a dominant process, this would imply a tightly coupled nitrogen cycle in the shelf water of the northern ECS., Biogeosciences, 11(4), pp.1297-1317; 2014

Published

2014

11. Highly heterogeneous diazotroph communities in the Kuroshio Current and the Tokara Strait, Japan

Author

Hiroaki Saito, Xiaomin Xia, Yu Umezawa, Hongbin Liu, Shunyan Cheung, and Koji Suzuki

Subjects

0301 basic medicine, Topography, 010504 meteorology & atmospheric sciences, lcsh:Medicine, Artificial Gene Amplification and Extension, Diazo Compounds, Plant Science, 01 natural sciences, Polymerase Chain Reaction, Database and Informatics Methods, Japan, Oceans, lcsh:Science, Phylogeny, Data Management, Islands, Multidisciplinary, Ecology, Organic Compounds, Community structure, Phylogenetic Analysis, Phylogenetics, Chemistry, Plant Physiology, Physical Sciences, Water Microbiology, Sequence Analysis, Research Article, Computer and Information Sciences, Bioinformatics, Sequence Databases, Biology, Research and Analysis Methods, Cyanobacteria, Pacific ocean, 03 medical and health sciences, Bodies of water, Nitrogen Fixation, Evolutionary Systematics, Transect, Molecular Biology Techniques, Relative species abundance, Molecular Biology, 0105 earth and related environmental sciences, Environmental gradient, Taxonomy, Landforms, Evolutionary Biology, Pacific Ocean, Organic Chemistry, lcsh:R, Chemical Compounds, Biology and Life Sciences, Geomorphology, biology.organism_classification, Marine and aquatic sciences, 030104 developmental biology, Trichodesmium, Biological Databases, Earth Sciences, Submarine pipeline, lcsh:Q, Diazotroph

Abstract

In this study, we used 454-pyrosequencing to report the highly diverse diazotroph communities in the Kuroshio and its adjacent waters along a transect across the Tokara Strait, Japan. Terrestrial input from the islands resulted in a highly heterogeneous diazotroph community within a relatively small geographic region, which was presumably caused by the remarkably different responses of UCYN-A2, UCYN-C and Trichodesmium to the steep environmental gradient. On the other hand, most major cyanobacterial OTUs found in this study were also detected in an unpublished dataset from the upstream Kuroshio, which suggests transportation of diazotrophs by the Kuroshio in large geographic scale. A significant amount of UCYN-C was found in the Kuroshio and offshore stations, suggesting the importance of this potentially overlooked group in the western North Pacific Ocean (WNPO). Moreover, a novel sublineage of UCYN-B was defined, which was predominant in an oligotrophic water sample; and it was also found to be widely distributed in oceanic waters. In addition, the apparent increase in relative abundance of UCYN-A2 from offshore to near-shore water provides evidence for the earlier and under-debating view that UCYN-A2 prefers coastal conditions. Our report provides new knowledge for understanding the phylogeny and ecology of unicellular cyanobacterial diazotrophs in WNPO.

Published

2017

12. Multiple isotope (H, O, N, S and Sr) approach elucidates complex pollution causes in the shallow groundwaters of the Taipei urban area

Author

Makoto Taniguchi, Chung-Ho Wang, Takanori Nakano, Chikage Yoshimizu, Takahiro Hosono, Yu Umezawa, Ichiro Tayasu, Toshi Nagata, and Shin-ichi Onodera

Subjects

Pollution, Hydrology, geography, geography.geographical_feature_category, Stable isotope ratio, media_common.quotation_subject, Aquifer, Southeast asian, Anoxic waters, chemistry.chemical_compound, chemistry, Groundwater pollution, Environmental chemistry, Sulfate, Groundwater, Geology, Water Science and Technology, media_common

Abstract

Summary Deterioration of the quality of groundwater under urban areas has become a major environmental concern worldwide. This paper presents a pilot case study (in the Taipei urban area) using multiple stable isotopes ( δ D H 2 O and δ 18 O H 2 O , δ 15 N NO 3 and δ 18 O NO 3 , δ 34 S SO 4 and δ 18 O SO 4 , and 87Sr/86Sr) with the aim of understanding the subsurface nature and environmental status of such areas. A previous study has already characterized Taipei shallow groundwaters as sulfate-rich in comparison to other Southeast Asian metropolitan cities. Our chemical measurements clarified that the arsenic is the important environmental concerns in the aquifers. Dual isotope approaches for nitrate and sulfate suggested these ions were sourced mainly from municipal sewage leaking from sewer pipes in urbanized area, while chemical fertilizers applied in the local agricultural fields partly contribute in the suburb area. Significant decreases in nitrate and sulfate concentrations due to denitrification and sulfate reduction were observed in some groundwaters, which induced increases in isotope ratios up to 24.9‰ for δ 15 N NO 3 and 27.2‰ for δ 34 S SO 4 . Nitrate groundwater pollution in the Taipei Basin is not a subject of serious concern ( NO 3 - for all analyzed samples) at the present time due to attenuation by denitrification. However, arsenic is preferentially released in groundwater (>100 μg/L) in anoxic environment under which sulfate reduction occurs. The Sr isotope data suggested that the arsenic is derived from alluvial deposits of Oligocene–Miocene sedimentary rock origin. This study disclosed the complex causes of environmental changes in Taipei urban shallow groundwater. It is also important as an excellent case study demonstrating the efficient use of multiple isotope diagnosis in the urban groundwater environmental field.

Published

2011

13. Diurnal and seasonal variation of particle and dissolved organic matter release by the coral Acropora tenuis

Author

Yu Umezawa, Haruko Kurihara, and Nao Ikeda

Subjects

0106 biological sciences, Coral, Particle organic matter, ved/biology.organism_classification_rank.species, lcsh:Medicine, Marine Biology, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Animal science, Dissolved organic carbon, medicine, Dissolved organic matter, Acropora tenuis, Nitrogen cycle, Total organic carbon, ved/biology, Chemistry, 010604 marine biology & hydrobiology, General Neuroscience, lcsh:R, General Medicine, Biogeochemistry, Particulates, Seasonality, medicine.disease, Mucus, General Agricultural and Biological Sciences, Energy source

Abstract

Release rates of particulate organic carbon and nitrogen (POC and PON) and dissolved organic carbon (DOC) from the scleractinian coral Acropora tenuis were measured during the day and night in summer and winter seasons. Physiological parameters including calcification, photosynthesis and respiration rates were also measured simultaneously. The release rate of both POC and DOC was significantly higher in summer compared to winter and higher during the day compared to the night. The daily release rate of total organic carbon (POC + DOC) was 1,094 and 219 μmol C cm−2 d−1 for summer and winter, respectively, being 4.9 times higher in summer. The POC:PON ratios of the particulate organic matter released during daytime in both seasons (summer: 12.8 ± 5.7, winter: 12.0 ± 4.1) were significantly higher than those during nighttime (summer: 6.1 ± 2.5, winter: 2.2 ± 1.8). The DOC:POC ratio was 0.5 ± 0.03 during summer and 0.32 ± 0.98 during winter, suggesting higher mucus release in particulate form. Daily net production was estimated to be 199 and 158 μg C cm−2d−1 for summer and winter, respectively, with the amount of carbon released as mucus accounting for 6.5% and 1.6% of the net carbon fixation, respectively. The study reveals diurnal and seasonal changes in the quantity and quality of mucus released from this coral species. Since coral mucus is used as a food source by reef macro-organisms, and can also serve as an energy source for micro-organisms, the observed changes in mucus release rates are expected to influence the seasonal dynamics of organic carbon and nitrogen cycling over coral reefs.

Published

2018

14. Stable nitrogen isotope composition in sedimentary organic matter as a potential proxy of nitrogen sources for primary producers at a fringing coral reef

Author

Yu Umezawa, Toshihiro Miyajima, and Isao Koike

Subjects

chemistry.chemical_classification, geography, geography.geographical_feature_category, Primary producers, Stable isotope ratio, Fringing reef, Coral reef, Oceanography, Isotopes of nitrogen, chemistry, Environmental science, Sedimentary organic matter, Organic matter, Reef

Abstract

The stable nitrogen isotope ratio (δ 15N) in macroalgae is effectively used as a time-integrated bioindicator to record nitrogen sources for primary producers during their growing periods in aquatic ecosystems. However, the utility of this tool is limited because the occurrence of these organisms is often restricted in space and time. To investigate the potential of chemical composition in sedimentary organic matter (SOM) as a proxy for time-integrated environmental conditions, nitrogen (N) and carbon (C) contents and their stable isotope ratios (δ 15N and δ 13C) were determined, and systematically cross-checked against corresponding values in macroalgae at the Shiraho fringing reef in Okinawa, Japan. Preliminary trials showed that δ 15N in SOM processed by the “wash-out method” for δ 13C analysis yielded similar δ 15N values to the bulk sediment, despite the loss of some SOM during the process. The amounts of organic matter and the ratio of the HCl-insoluble portion were variable within the reef, probably reflecting local vegetation and subsequent decomposition. The distribution of δ 15N and δ 13C in SOM showed similar trends to those of macroalgae, with mostly constant differences of 1.4‰ and −6.7‰, respectively. These differences throughout the reef appeared to be explained in terms of mixed contributions from macrophyte and epibenthic microalgae growing in different seasons and years, with their debris undergoing diagenetic alteration. Therefore, macroalgae and SOM δ-values can be used in a complementary manner, over various time scales, as indicators of the integrated effect of dissolved inorganic nitrogen (DIN) sources on coral reef ecosystems.

Published

2008

15. Distribution and partitioning of nitrogen and phosphorus in a fringing reef lagoon of Ishigaki Island, northwestern Pacific

Author

Yu Umezawa, Hajime Kayanne, Toshihiro Miyajima, Hiroshi Hata, and Isao Koike

Subjects

geography, geography.geographical_feature_category, Ecology, Phosphorus, Fringing reef, Primary production, chemistry.chemical_element, Aquatic Science, Seasonality, medicine.disease, Nitrogen, Water column, Oceanography, chemistry, Dissolved organic carbon, medicine, Environmental science, Reef, Ecology, Evolution, Behavior and Systematics

Abstract

Concentration of dissolved and particulate carbon (C), nitrogen (N), and phosphorus (P) were measured daily and seasonally in the water column of a coral reef lagoon at Ishigaki Island. Concentrations of dissolved inorganic N and P (DIN, DIP), dissolved organic C and N (DOC, DON), particulate organic C, and particulate N and P (POC, PN, PP) were usually higher in the lagoon than at offshore stations, while dissolved organic P (DOP) was higher at the offshore stations than in the lagoon. Concentration ratios of DIN:DIP and PN:PP were near 16:1 in winter and >20:1 in summer. DON:DOP was always ≥30. Total P (DIP + DOP + PP) was fairly constant around 0.177 ± 0.025 μmol l–1 (mean ± SD), suggesting conservative behavior of water-column P around this reef. DIP and PP seemed to be produced at the expense of DOP, and PP rather than DIP increased when gross primary production (GPP) was high. In contrast, total N (DIN + DON + PN) showed large spatial and seasonal variation from 4.3 to 12.4 μmol l–1. DON and PN increased when GPP and DIN:DIP were high, which suggests that export production of organic N by the lagoon biota was enhanced by primary production and the availability of N relative to P. Estimation of C, N, and P exchange fluxes between the lagoon and the outer ocean using a simple hydrodynamic model showed that the lagoon ecosystem released N (especially DIN) but not P to the surrounding ocean. Oceanic DOP could be the major source for the P budget of the lagoon. While the lagoon was a net source of organic C to the outer ocean, the net export was only a minor fraction (

Published

2007

16. Temporal variability of stable carbon and nitrogen isotopic composition of size-fractionated particulate organic matter in the hypertrophic Sumida River Estuary of Tokyo Bay, Japan

Author

Isao Koike, Taeko Sato, Hiroshi Ogawa, Yu Umezawa, and Toshihiro Miyajima

Subjects

Total organic carbon, Chlorophyll a, geography, geography.geographical_feature_category, δ13C, Estuary, Aquatic Science, Spring bloom, Oceanography, chemistry.chemical_compound, chemistry, Phytoplankton, Environmental science, Bloom, Bay

Abstract

To clarify the major factors that control stable carbon and nitrogen isotopic compositions (δ13C and δ15N) of suspended particulate organic matter in a hypertrophic estuary, seasonal variation in concentrations and stable isotopic compositions of particulate organic carbon and nitrogen (POC, PN), chlorophyll a content (Chl) and dry weight of suspended solid (SS) was studied in the Sumida River estuary of Tokyo Bay. Particulate material was fractioned into four size-fractions (3–20, 20–53, 53–250, 250–1000 μm). At the lower-estuarine (LE) site, the finer size fraction ( 80% Chl) during the autumnal bloom (Aug–Sep 2003). The middle size fractions (20–53 and 53–250 μm) however increased during the spring bloom (50–80% Chl; Feb–Apr 2004), reflecting difference in taxonomic composition of phytoplankton. At the upper-estuarine and the riverine sites, the

Published

2006

17. Internal variations in nutrient concentrations and the C and N stable isotope ratios in leaves of the seagrass Enhalus acoroides

Author

Yu Umezawa, Isao Koike, and Masumi Yamamuro

Subjects

Chemical signature, biology, Stable isotope ratio, Phosphorus, chemistry.chemical_element, Plant Science, Aquatic Science, biology.organism_classification, Nitrogen, Nutrient, Seagrass, Animal science, chemistry, Botany, Carbon, Enhalus acoroides

Abstract

We analyzed the content of tissue nutrients (carbon, nitrogen, and phosphorus), the C:N:P ratio, the carbon stable isotope ratio ( δ 13 C ) and the nitrogen stable isotope ratio ( δ 15 N ) of leaves of Enhalus acoroides (L. f.) Royle growing in two submerged beds in southwest Thailand. The N and P concentrations and δ 15 N decreased with increasing distance along the leaf. The maximum ranges in one leaf were 1.80–4.05% for N, 2.85–6.64 mg g−1 for P, and 1.28–2.93‰ for δ 15 N . The C:N, C:P, and N:P ratios increased as the distance along the leaf increased. The maximum ranges in one leaf were 12.5–24.3 for C:N, 162–622 for C:P, and 14.0–28.9 for N:P. In contrast, C concentration and δ 13 C fluctuated with distance along the leaf, and the longest leaves from each beds showed similar patterns of fluctuation. The variation of the chemical signature within leaves suggests that special attention is needed to apply these data to the evaluation of nutrient conditions during growth in food-web analyses involving seagrass beds.

Published

2004

18. Cycling of phosphorus maintains the production of microphytobenthic communities in carbonate sediments of a coral reef

Author

Masahiro Suzumura, Hiroshi Hata, Isao Koike, Yu Umezawa, Toshihiro Miyajima, and Hajime Kayanne

Subjects

geography, geography.geographical_feature_category, Ecology, Phosphorus, Fringing reef, chemistry.chemical_element, Coral reef, Aquatic Science, Oceanography, Geochemical cycle, chemistry.chemical_compound, chemistry, Sediment–water interface, Benthic zone, Carbonate, Reef, Geology

Abstract

The phosphorus (P) cycle that maintains the production of microphytobenthic communities in carbonate sediments was investigated in the fringing Shiraho coral reef system located off the east coast of Ishigaki Island, Japan. Production rates of the diatom-dominated microphytobenthic communities and the P flux at the sediment‐water interface were determined by in situ benthic enclosure experiments. The daily net production (6.9‐24 mmol C m 22

Published

2002

19. Microbiological nitrogen transformation in carbonate sediments of a coral-reef lagoon and associated seagrass beds

Author

Toshihiro Miyajima, Isao Koike, Masahiro Suzumura, and Yu Umezawa

Subjects

Denitrification, Ecology, chemistry.chemical_element, Sediment, Aquatic Science, Nitrogen, chemistry.chemical_compound, Oceanography, chemistry, Nitrate, Environmental chemistry, Nitrogen fixation, Carbonate, Ammonium, Nitrogen cycle, Ecology, Evolution, Behavior and Systematics

Abstract

Nitrogen fixation (NF), denitrification (DN), microalgal uptake (MU) of dissolved inor- ganic nitrogen (DIN) and the net diffusive DIN flux (FL) between the sediment and the overlying water were measured in bare carbonate (sand) sediment and seagrass-bed sediment of the shallow (

Published

2001

20. Erratum to 'Sources of nitrate and ammonium contamination in groundwater under developing Asian megacities'

Author

Toshi Nagata, Chikage Yoshimizu, Robert M. Delinom, Ichiro Tayasu, Yu Umezawa, Makoto Taniguchi, Fernando P. Siringan, Takahiro Hosono, Somkid Buapeng, and Shin-ichi Onodera

Subjects

Environmental Engineering, Denitrification, Industrial Waste, Fresh Water, Southeast asian, chemistry.chemical_compound, Nitrate, Water Supply, Groundwater pollution, Environmental Chemistry, Cities, Water pollution, Waste Management and Disposal, Asia, Southeastern, Nitrates, Urbanization, Environmental engineering, Contamination, Pollution, Anoxic waters, Quaternary Ammonium Compounds, chemistry, Environmental science, Nitrification, Public Health, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The status of nitrate (NO 3 − ), nitrite (NO 2 − ) and ammonium (NH 4 + ) contamination in the water systems, and the mechanisms controlling their sources, pathways, and distributions were investigated for the Southeast Asian cities of Metro Manila, Bangkok, and Jakarta. GIS-based monitoring and dual isotope approach (nitrate δ 15 N and δ 18 O) suggested that human waste via severe sewer leakage was the major source of nutrient contaminants in Metro Manila and Jakarta urban areas. Furthermore, the characteristics of the nutrient contamination differed depending on the agricultural land use pattern in the suburban areas: high nitrate contamination was observed in Jakarta (dry fields), and relatively lower nutrients consisting mainly of ammonium were detected in Bangkok (paddy fields). The exponential increase in NO 3 − – δ 15 N along with the NO 3 − reduction and clear δ 18 O/ δ 15 N slopes of NO 3 − (∼ 0.5) indicated the occurrence of denitrification. An anoxic subsurface system associated with the natural geological setting ( e.g. , the old tidal plain at Bangkok) and artificial pavement coverage served to buffer NO 3 − contamination via active denitrification and reduced nitrification. Our results showed that NO 3 − and NH 4 + contamination of the aquifers in Metro Manila, Bangkok, and Jakarta was not excessive, suggesting low risk of drinking groundwater to human health, at present. However, the increased nitrogen load and increased per capita gross domestic product (GDP) in these developing cities may increase this contamination in the very near future. Continuous monitoring and management of the groundwater system is needed to minimize groundwater pollution in these areas, and this information should be shared among adjacent countries with similar geographic and cultural settings.

Published

2009

21. Sources of nitrate and ammonium contamination in groundwater under developing Asian megacities

Author

Yu Umezawa, Toshi Nagata, Ichiro Tayasu, Chikage Yoshimizu, Somkid Buapeng, Shin-ichi Onodera, Robert M. Delinom, Fernando P. Siringan, Makoto Taniguchi, and Takahiro Hosono

Subjects

Delta, Environmental Engineering, Denitrification, Industrial Waste, Southeast asian, Risk Assessment, chemistry.chemical_compound, Soil, Nitrate, Water Supply, Groundwater pollution, Environmental Chemistry, Humans, Cities, Water pollution, Waste Management and Disposal, Asia, Southeastern, Nitrates, Geography, Environmental engineering, Agriculture, Contamination, Pollution, Anoxic waters, Quaternary Ammonium Compounds, chemistry, Environmental science, Public Health, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The status of nitrate (NO(3)(-)), nitrite (NO(2)(-)) and ammonium (NH(4)(+)) contamination in the water systems, and the mechanisms controlling their sources, pathways, and distributions were investigated for the Southeast Asian cities of Metro Manila, Bangkok, and Jakarta. GIS-based monitoring and dual isotope approach (nitrate delta(15)N and delta(18)O) suggested that human waste via severe sewer leakage was the major source of nutrient contaminants in Metro Manila and Jakarta urban areas. Furthermore, the characteristics of the nutrient contamination differed depending on the agricultural land use pattern in the suburban areas: high nitrate contamination was observed in Jakarta (dry fields), and relatively lower nutrients consisting mainly of ammonium were detected in Bangkok (paddy fields). The exponential increase in NO(3)(-)-delta(15)N along with the NO(3)(-) reduction and clear delta(18)O/delta(15)N slopes of NO(3)(-) ( approximately 0.5) indicated the occurrence of denitrification. An anoxic subsurface system associated with the natural geological setting (e.g., the old tidal plain at Bangkok) and artificial pavement coverage served to buffer NO(3)(-) contamination via active denitrification and reduced nitrification. Our results showed that NO(3)(-) and NH(4)(+) contamination of the aquifers in Metro Manila, Bangkok, and Jakarta was not excessive, suggesting low risk of drinking groundwater to human health, at present. However, the increased nitrogen load and increased per capita gross domestic product (GDP) in these developing cities may increase this contamination in the very near future. Continuous monitoring and management of the groundwater system is needed to minimize groundwater pollution in these areas, and this information should be shared among adjacent countries with similar geographic and cultural settings.

Published

2008

22. Underground sources of nutrient contamination to surface waters in Bangkok, Thailand

Author

Gullaya Wattayakorn, Tomotoshi Ishitobi, Makoto Taniguchi, William C. Burnett, Supitcha Chanyotha, and Yu Umezawa

Subjects

Water Pollutants, Radioactive, Environmental Engineering, chemistry.chemical_element, Radon, Phosphates, Nutrient, Rivers, Water Supply, Groundwater pollution, Environmental Chemistry, Groundwater discharge, Cities, Water pollution, Nitrogen Compounds, Waste Management and Disposal, Isotope analysis, Hydrology, Water Pollution, Thailand, Pollution, chemistry, Environmental science, Surface water, Groundwater, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Radon-222 is very concentrated in groundwater relative to surface waters and thus serves as an effective groundwater discharge tracer. We observed spikes in radon data from an earlier (2004) survey of the Chao Phraya River that appeared to correspond to locations where major canals ("klongs") enter the river. We returned in 2006 and conducted more detailed surveys along some of the main klongs on the western (Thonburi) side of the Chao Phraya to evaluate this possibility. Our results show that both radon and conductivity are enriched in some areas of the klongs with 3 apparent "end-members," two of which are likely related to groundwater seepage. Furthermore, nutrient analyses conducted during a time-series experiment at a site of suspected high discharge (Wat Intharam, Klong Bangkok Yai) showed that dissolved inorganic nitrogen (DIN) and phosphate correlated significantly to the groundwater tracer, radon. Rough estimates of the nutrient fluxes in this area are orders of magnitude higher than those measured in coastal settings and may represent a significant fraction of the riverine flux. It thus appears very likely that seepage of shallow groundwater is an important pathway for nutrient contamination of the klongs, and thus to the river, and ultimately to the Gulf of Thailand.

Published

2007