Your search keyword '"Doi, Hideyuki"' showing total 14 results

1. A shady phytoplankton paradox: when phytoplankton increases under low light.

Author

Yamamichi M, Kazama T, Tokita K, Katano I, Doi H, Yoshida T, Hairston NG Jr, and Urabe J

Subjects

Biomass, Chara growth & development, Chara radiation effects, Ecosystem, Models, Theoretical, Photosynthesis, Phytoplankton radiation effects, Population Density, Population Dynamics, Light, Phytoplankton growth & development

Abstract

Light is a fundamental driver of ecosystem dynamics, affecting the rate of photosynthesis and primary production. In spite of its importance, less is known about its community-scale effects on aquatic ecosystems compared with those of nutrient loading. Understanding light limitation is also important for ecosystem management, as human activities have been rapidly altering light availability to aquatic ecosystems. Here we show that decreasing light can paradoxically increase phytoplankton abundance in shallow lakes. Our results, based on field manipulation experiments, field observations and models, suggest that, under competition for light and nutrients between phytoplankton and submersed macrophytes, alternative stable states are possible under high-light supply. In a macrophyte-dominated state, as light decreases phytoplankton density increases, because macrophytes (which effectively compete for nutrients released from the sediment) are more severely affected by light reduction. Our results demonstrate how species interactions with spatial heterogeneity can cause an unexpected outcome in complex ecosystems. An implication of our findings is that partial surface shading for controlling harmful algal bloom may, counterintuitively, increase phytoplankton abundance by decreasing macrophytes. Therefore, to predict how shallow lake ecosystems respond to environmental perturbations, it is essential to consider effects of light on the interactions between pelagic and benthic producers., (© 2018 The Author(s).)

Published

2018

2. Lack of congruence in species diversity indices and community structures of planktonic groups based on local environmental factors.

Author

Doi H, Chang KH, Nishibe Y, Imai H, and Nakano S

Subjects

Animals, Biodiversity, Ecosystem, Food Chain, Fresh Water, Japan, Ponds, Population Dynamics, Ciliophora physiology, Models, Statistical, Phytoplankton physiology, Rotifera physiology, Zooplankton physiology

Abstract

The importance of analyzing the determinants of biodiversity and community composition by using multiple trophic levels is well recognized; however, relevant data are lacking. In the present study, we investigated variations in species diversity indices and community structures of the plankton taxonomic groups-zooplankton, rotifers, ciliates, and phytoplankton-under a range of local environmental factors in pond ecosystems. For each planktonic group, we estimated the species diversity index by using linear models and analyzed the community structure by using canonical correspondence analysis. We showed that the species diversity indices and community structures varied among the planktonic groups and according to local environmental factors. The observed lack of congruence among the planktonic groups may have been caused by niche competition between groups with similar trophic guilds or by weak trophic interactions. Our findings highlight the difficulty of predicting total biodiversity within a system, based upon a single taxonomic group. Thus, to conserve the biodiversity of an ecosystem, it is crucial to consider variations in species diversity indices and community structures of different taxonomic groups, under a range of local conditions.

Published

2013

3. Longitudinal macroinvertebrate organization over contrasting discontinuities: effects of a dam and a tributary

Author

Katano, Izumi, Negishi, Junjiro N., Minagawa, Tomoko, Doi, Hideyuki, Kawaguchi, Yôichi, and Kayaba, Yuichi

Published

2009

4. Attached microalgae contribute to planktonic food webs in bays with fish and pearl oyster farms

Author

Doi, Hideyuki, Chang, Kwang-Hyeon, Obayashi, Yumiko, Yoshihara, Mizuho, Shime, Mary, Yamamoto, Takako, Nishibe, Yuichiro, and Nakano, Shin-ichi

Published

2008

5. Response of the plankton community to herbicide application (triazine herbicide, simetryn) in a eutrophicated system: short-term exposure experiment using microcosms

Author

Chang, Kwang-Hyeon, Sakamoto, Masaki, Ha, Jin-Yong, Miyabara, Yuichi, Nakano, Shin-ichi, Doi, Hideyuki, and Hanazato, Takayuki

Published

2011

6. Photosynthetic property and primary production of phytoplankton in sublittoral sand bank area in the Seto Inland Sea, Japan

Author

Genkai-Kato, Motomi, Onishi, Miyuki, Doi, Hideyuki, Nozaki, Kentaro, Yoshino, Kenji, Miyasaka, Hitoshi, and Omori, Koji

Published

2008

7. Spatial changes in carbon and nitrogen stable isotopes of the plankton food web in a saline lake ecosystem

Author

Doi, Hideyuki, Zuykova, Elena I., Kikuchi, Eisuke, Shikano, Shuichi, Kanou, Keiichi, Yurlova, Natalia, and Yadrenkina, Elena

Published

2006

8. Seasonal changes of carbon and nitrogen stable isotope ratios for dominant species: chironomid larvae, phytoplankton, and benthic diatom inhabiting strongly acidic Lake Katanuma

Author

DOI, Hideyuki, KIKUCHI, Eisuke, TAKAGI, Shigeto, and SHIKANO, Shuichi

Subjects

chironomid larvae, carbon, Lake Katanuma, stable isotope, phytoplankton, benthic diatom, nitrogen

Abstract

Lake Katanuma is a colcanic, strongly acidic lake (average pH of 2.2), located in Miyagi prefecture, Japan. Only a few spieccies are found in Katanuma; Chironomus acerbiphis larvae as benthic invertebrate, Pinnularia baunii as benthic diatom, and Chlamydomonas acidophila as phytoplnkton. We tried analyzing seasonal changes of carbon and nitrogen stable isotope raios foethese spicies in Lake Katanuma. Food souece analysis by isotope ratios clearly showed main food source for Chironomus acerbiphilus larvae was P.braunii (benthic diatom). δ1C values of P.braunii varied seasonally, while those of POM (mainly phytoplankton) remained fairly stable. The difference of stable isotope ratios in these orfanisms discussed., Article, 信州大学山地水環境教育研究センター研究報告 2: 25-28(2004)

Published

2004

9. Grazing on Microcystis (Cyanophyceae) by testate amoebae with special reference to cyanobacterial abundance and physiological state.

Author

Mizuta, Seiko, Imai, Hiroyuki, Chang, Kwang-Hyeon, Doi, Hideyuki, Nishibe, Yuichiro, and Nakano, Shin-ichi

Subjects

MICROCYSTIS aeruginosa, AMOEBIDA, GRAZING, PHYTOPLANKTON, CYANOBACTERIA

Abstract

We examined the growth of testate amoebae preying on Microcystis whose physiological states were different in laboratory experiments and a hypertrophic pond. We prepared three experimental systems using water samples dominated by Microcystis aeruginosa: light incubation (control), dark incubation (dark), and light incubation with addition of nitrogen and phosphorus (+NP). In all the systems, the colony density of M. aeruginosa decreased slightly during incubation. Physiological activity of phytoplankton as determined by chlorophyll fluorescence was high and almost constant in the control and +NP systems, whereas it decreased in the dark system. Cell densities of testate amoebae increased in the control and +NP systems, whereas in the dark system they remained low. Thus, growth of the amoebae was low in the systems where physiological activity of Microcystis was low. In a hypertrophic pond, cell density of testate amoebae increased and remained high when M. aeruginosa predominated. Cell density of testate amoebae increased remarkably, simultaneously with the increases in M. aeruginosa colony density and phytoplankton physiological activity. We also found a significant correlation between densities of M. aeruginosa colonies and testate amoebae. We suggested that the physiological activity of Microcystis is one important factor affecting the growth of testate amoebae grazing on Microcystis. [ABSTRACT FROM AUTHOR]

Published

2011

10. Trophic niche breadth variability differs among three Neocalanus species in the subarctic Pacific Ocean.

Author

DOI, HIDEYUKI, KOBARI, TORU, FUKUMORI, KAYOKO, NISHIBE, YUICHIRO, and NAKANO, SHIN-ICHI

Subjects

*COPEPODA, *PHYTOPLANKTON, *ZOOPLANKTON, *BIOMASS, *FISHES

Abstract

We determined trophic niche breadths of three dominant Neocalanus species using δ13C–δ15N variation among individuals. Trophic niche breadths differed among the congeneric copepods, depending on their body size and feeding habits. [ABSTRACT FROM PUBLISHER]

Published

2010

11. Differences in nitrogen and carbon stable isotopes between planktonic and benthic microalgae.

Author

Doi, Hideyuki, Kikuchi, Eisuke, Shikano, Shuichi, and Takagi, Shigeto

Subjects

*MICROALGAE, *ISOTOPES, *PHYTOPLANKTON, *NITROGEN in water, *DIATOMS, *CHLAMYDOMONAS

Abstract

We compiled published data on the nitrogen and carbon stable isotope ratios of phytoplankton and benthic microalgae from lentic systems and explored the primary factors determining the isotope values among systems. Also, we investigated seasonal changes in nitrogen stable isotope ratios of phytoplankton and benthic microalgae in the strongly acidic lake, Lake Katanuma, which has only two dominant species, Pinnularia acidojaponica as a benthic diatom and Chlamydomonas acidophila, a planktonic green alga. From the published dataset, it may be concluded that δ13C of benthic diatoms were more enriched than those of phytoplankton at the same sites, although the nitrogen isotope of phytoplankton and benthic microalgae were similar. This differences in δ13C between benthic microalgae and phytoplankton could be explained by the boundary layer effect. On the other hand, nitrogen isotope values of both benthic microalgae and phytoplankton were primarily controlled by the same environmental factor, and boundary layer effects are not the primary factor determining the nitrogen isotope values of microalgae. Also, we showed temporal dynamics in nitrogen isotopes of benthic and planktonic microalgae species in Lake Katanuma, and the trends of nitrogen isotopes are similar between benthic and planktonic microalgae, as concluded from the published dataset. [ABSTRACT FROM AUTHOR]

Published

2010

12. Selective assimilation by deposit feeders: Experimental evidence using stable isotope ratios.

Author

Doi, Hideyuki, Kikuchi, Eisuke, Takagi, Shigeto, and Shikano, Shuichi

Subjects

ISOTOPES, FOOD chains, SEDIMENTS, MICROALGAE

Abstract

Copyright of Basic & Applied Ecology is the property of Urban & Fischer Verlag and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2006

13. Carbon, nitrogen, and sulfur isotope changes and hydro-geological processes in a saline lake chain.

Author

Doi, Hideyuki, Kikuchi, Eisuke, Mizota, Chitoshi, Satoh, Nobuya, Shikano, Shuichi, Yurlova, Natalia, Yadrenkina, Elena, and Zuykova, Elena

Subjects

*SALT lakes, *ISOTOPES, *HYDROGEOLOGICAL surveys, *DENITRIFICATION, *CHEMICAL reduction, *PHYTOPLANKTON

Abstract

The ionic concentrations,conductivity and pH of water in the Lake Chany complex in West Siberian Russia change from the mouth to the interior of the lake. This difference is indicative of marked evaporation of lake water from the closed water body system in the dry climate of Western Siberia. The carbon isotope composition of particulate organic matter (POM, composed mainly of phytoplankton) clearly changes, along with the pH of the water, reflecting the concentration of dissolved CO2. Carbon and nitrogen isotope signatures of Chironomus plumosus larvae, a benthic invertebrate that may feed on bulk lake sediment, systematically increase, along with those of POM and sediment organic matter (SOM), through the lake chain. Both sulfate-sulfur and nitrogen isotope compositions of the POM and SOM increase with distance from the estuary into the Lake Chany complex. Heavier sulfur and nitrogen isotope recycling from the sediment, caused by microbial sulfate reduction and denitrification, respectively, may have led to the increased sulfate-sulfur and nitrogen isotope compositions of the POM and SOM. [ABSTRACT FROM AUTHOR]

Published

2004

14. Food sources of the pearl oyster in coastal ecosystems of Japan: Evidence from diet and stable isotope analysis

Author

Fukumori, Kayoko, Oi, Misa, Doi, Hideyuki, Okuda, Noboru, Yamaguchi, Hitomi, Kuwae, Michinobu, Miyasaka, Hitoshi, Yoshino, Kenji, Koizumi, Yoshitsugu, Omori, Koji, and Takeoka, Hidetaka

Subjects

*PEARL oysters, *PINCTADA, *MICROALGAE

Abstract

Abstract: We estimated the composition of two food sources for the cultured pearl oyster Pinctada fucata martensii using stable isotopes and stomach content analysis in the coastal areas of the Uwa Sea, Japan. The δ 13C values of oysters (−17.5 to −16.8‰) were intermediate between that of particulate organic matter (POM, −20.2 to −19.1‰) and attached microalgae on pearl cages (−13.0‰). An isotope mixing model suggested that oysters were consuming 78% POM (mainly phytoplankton) and 22% attached microalgae. The attached microalgal composition of the stomach content showed a strong resemblance to the composition of that estimated through the isotope mixing model, suggesting preferential utilization of specific components is unlikely in this species. These results indicate that P. fucata martensii feed on a mixture of phytoplankton and attached microalgae, and that the attached microalgae on pearl cages can serve as an important additional food source. [Copyright &y& Elsevier]

Published

2008