Marine Environment Control System Department

Members

Shinya HOSOKAWA

Shinya HOSOKAWAの画像

Shinya HOSOKAWA
hosokawa@p.mpat.go.jp
Group Leader,
Port and Airport Research Institute (PARI)
Last updated: 21/04/2023

Port and Airport Research Institute (PARI)

Education

Ph.D: Graduate School of Environmental Science, HOKKAIDO UNIVERSITY, Japan, March 2012
M.S.: Global Environment Engineering Division, HIROSHIMA UNIVERSITY, Japan, March 2003
B.S.: Faculty of Engineering, HIROSHIMA UNIVERSITY, Japan, March 2001

Post positions

Group Leader, Port and Airport Research Institute (September 2020 -)
Visiting Researcher,Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia (December 2014 - October 2015)
Senior Researcher, Port and Airport Research Institute (September 2013 - September 2020)
Deputy Director, Engineering Administrative Office, Ports and Harbours Bureau, Ministry of Land, Infrastructure, Transport and Tourism (April 2012 - August 2013)
Senior Researcher, Port and Airport Research Institute (April 2010 - March 2012)
Researcher, Port and Airport Research Institute (April 2003 - March 2010)

Publications (Journal)

Hosokawa, S., S. Okura (2022) Long-term observation of current at the mouth of Tokyo Bay. Coastal Engineering Journal, 64: 648-659. https://doi.org/10.1080/21664250.2022.2122300 (Link to the abstract page)
Okura, S., S. Hosokawa (2022) Representativeness and certainty of sea surface temperature from MODIS in semi-enclosed bays. Coastal Engineering Journal, 64: 428-441. https://doi.org/10.1080/21664250.2022.2116775 (Link to the abstract page)
Momota, K., S. Hosokawa, T. Komuro (2022) Small-scale heterogeneity of fish diversity evaluated by environmental DNA analysis in eelgrass beds, Marine Ecology Progress Series, 688: 99-112. https://doi.org/10.3354/meps13994 (Link to the abstract page).
Hosokawa, S., K. Momota, A.A. Chariton, R. Naito, Y. Nakamura (2021) The use of diversity indices for local assessment of marine sediment quality, Scientific Reports, 11: 14991. https://doi.org/10.1038/s41598-021-94636-0 (Link to the abstract page).
Momota, K., S. Hosokawa (2021) Potential impacts of marine urbanization on benthic macrofaunal diversity, Scientific Reports, 11: 4028. https://doi.org/10.1038/s41598-021-83597-z (Link to the abstract page).
Hosokawa, S., R. Naito, Y. Nakamura (2020) Spatial patterns of concentrations of Cu, Zn, Cd, and Pb in marine sediments from Japanese port areas, Regional Studies in Marine Science, 35. doi: 10.1016/j.rsma.2020.101135 (Link to the abstract page).
Hosokawa, S., S. Konuma, Y. Nakamura (2016) Accumulation of trace metal elements (Cu, Zn, Cd, and Pb) in surface sedimnet via decomposed seagrass leaves: A mesocosm experiment using Zostera marina L., PLoS ONE, 11: e0157983. doi:10.1371/journal.pone.0157983 (Link to the abstract page).
van Katwijk, M. M., A. Thorhang, N. Marbà, R. J. Orth, C. M. Duarte, G. A. Kendrick, I. H. J. Althuizen, E. Balestri, G. Bernard, M. L. Cambridge, A. Cunha, C. Durance, W. Giesen, Q. Han, S. Hosokawa, W. Kiswara, T. Komatsu, C. Lardicci, K. S. Lee, A. Meinesz, M. Nakaoka, K. R. O'Brien, E. I. Paling, C. Pickerell, A. M. A. Ransijn, J. J. Verduin (2015) Global analysis of seagrass restoration: the importance of large-scale planting, Journal of Applied Ecology, 53, 567-578.
Hosokawa, S., M. Nakaoka, E. Miyoshi, T. Kuwae (2015) Seed dispersal in the seagrass Zostera marina is mostly within the parent bed in a protected bay, Marine Ecology Progress Series, 523, 41-56 (Link to the abstract page).
Tokoro, T. S. Hosokawa, E. Miyoshi, K. Tada, K. Watanabe, S. Montani, H. Kayanne, T. Kuwae (2014) Net uptake of atmospheric CO2 by coastal submerged aquatic vegetation, Global Change Biology, 20, 1873-1884.
Kuwae, T., E. Miyoshi, S. Hosokawa, K. Ichimi, J. Hosoya, T. Amano, T. Moriya, M. Kondoh, R. C. Ydenberg, R. W. Elner (2012) Variable and complex food web structures revealed by exploring missing trophic links between birds and biofilm, Ecology Letters, 15, 347-356 (PDF).
Hosokawa, S. (2011) A model for measuring leaf growth rate of vegetative shoots in the seagrass, Zostera marina, Ecological Modelling, 222, 105-111 (Link to the abstract page).
Hosokawa, S., Y. Nakamura, T. Kuwae (2009) Increasing temperature induces shorter leaf life span in an aquatic plant, Oikos, 118, 1158-1163 (Link to the abstract page).
Yamamuro, M., J. Hiratsuka, Y. Ishitobi, S. Hosokawa and Y. Nakamura (2006). Ecosystem shift resulting from loss of eelgrass and other submerged aquatic vegetation in two estuarine lagoons, Lake Nakaumi and Lake Shinji, Japan, Journal of Oceanography, 62, 551-558 (Link to the abstract page).

Publications (International conference)

Momota, K., S. Hosokawa (2019) The importance of habitat diversity for biodiversity of benthic macrofaunal species in a semi-enclosed coastal sea, The Fourth Asian Marine Biology Symposium 2019.
Hosokawa, S., T. Hara, M. Nozu (2019) Advanced engineering techniques and environmental measures for beneficial sediment use in Japan, Australasian Coasts & Ports 2019 Conference, 611-616.
Hosokawa, S., K. Momota (2018) Which characteristics affect the richness of benthic biota in marine sediments? ECSA57 2018.
Momota, K., S. Hosokawa (2018) Habitat variation enhances benthic macrofaunal biodiversity in a bay, ECSA57 2018.
Hosokawa, S. A. A. Chariton (2016) The effect of sediment structure on the diversity of benthic marine animals in Japan, SETAC-AU 2016 (PDF).
Hosokawa, S. (2009). A new model for estimating leaf growth rate in eelgrass, CERF 2009.
Hosokawa, S., Y. Nakamura (2007) Branching and mortality of eelgrass shoots examined by indoor mesocosm experiments, ERF 2007.
Hosokawa, S., Y. Nakamura (2006) Seasonal variations of net production rate and defluxion rate on blade of eelgrass, ASLO summer meeting 2006.
Hosokawa, S., Y. Nakamura (2005) Mesocosm experiment and numerical modeling on the growth of eelgrass Zostera marina, Proceedings of the 5th Japan-Korea Joint Workshop on Tidal Flats.