Can tidal events influence analysis on colonization dynamics in body-size spectrum of periphytic ciliates for marine bioassessment?

[1]  Shi-tao Yu,et al.  Influence of tidal events on the body-size spectrum of periphytic ciliates for marine bioassessment using artificial substrata. , 2021, Marine pollution bulletin.

[2]  Congcong Guo,et al.  Colonization dynamics of protozoan communities in marine bioassessment surveys using two modified sampling systems. , 2020, Marine pollution bulletin.

[3]  Sanghee Kim,et al.  Insight into tidal disturbance on colonization surveys for marine bioassessment using periphytic ciliates based on biological trait analysis , 2019 .

[4]  Sanghee Kim,et al.  Can tidal events influence monitoring surveys using periphytic ciliates based on biological trait analysis in marine ecosystems? , 2019, Marine pollution bulletin.

[5]  Sung-Ho Kang,et al.  Vertical shift in ciliate body-size spectrum and its environmental drivers in western Arctic pelagic ecosystems , 2018, Environmental Science and Pollution Research.

[6]  E. Yang,et al.  Environmental drivers of heterogeneity in the trophic-functional structure of protozoan communities during an annual cycle in a coastal ecosystem. , 2017, Marine pollution bulletin.

[7]  Guangjian Xu,et al.  Use of multiple functional traits of protozoa for bioassessment of marine pollution. , 2017, Marine pollution bulletin.

[8]  Yong Jiang,et al.  Spatial variations in annual cycles of body-size spectra of planktonic ciliates and their environmental drivers in marine ecosystems. , 2016, Marine pollution bulletin.

[9]  Z. Wang,et al.  Body-size spectra of biofilm-dwelling protozoa and their seasonal shift in coastal ecosystems. , 2016, European journal of protistology.

[10]  Z. Wang,et al.  Temporal variation in body-size spectrum of biofilm-dwelling protozoa during the colonization process in coastal waters of the Yellow Sea, northern China , 2016, Journal of the Marine Biological Association of the United Kingdom.

[11]  Yangfan Wang,et al.  An approach to determination of functional species pool for community research , 2014 .

[12]  E. Yang,et al.  Use of biofilm-dwelling ciliate communities to determine environmental quality status of coastal waters. , 2014, The Science of the total environment.

[13]  A. Warren,et al.  Insights into discriminating environmental quality status using taxonomic distinctness based on a small species pool of ciliated protozoa in marine ecosystems. , 2014, The Science of the total environment.

[14]  Sung-Ho Kang,et al.  Using pelagic ciliated microzooplankton communities as an indicator for monitoring environmental condition under impact of summer sea-ice reduction in western Arctic Ocean , 2013 .

[15]  K. Al-Rasheid,et al.  Can body-size patterns of ciliated zooplankton be used for assessing marine water quality? A case study on bioassessment in Jiaozhou Bay, northern Yellow Sea , 2012, Environmental Science and Pollution Research.

[16]  Z. Dubinsky,et al.  Taxonomic size structure consistency of the English Channel phytoplankton , 2010 .

[17]  J. Choi,et al.  An approach to analyses of periphytic ciliate colonization for monitoring water quality using a modified artificial substrate in Korean coastal waters. , 2009, Marine pollution bulletin.

[18]  L. Aleya,et al.  Distribution of ciliates in relation to environmental factors along the coastline of the Gulf of Gabes, Tunisia , 2009 .

[19]  J. Choi,et al.  An approach to analyses of periphytic ciliate communities for monitoring water quality using a modified artificial substrate in Korean coastal waters , 2009, Journal of the Marine Biological Association of the United Kingdom.

[20]  R. Anadón,et al.  Copepod communities along an Atlantic Meridional Transect: Abundance, size structure, and grazing rates , 2008 .

[21]  K. Winemiller,et al.  Body size and trophic position in a temperate estuarine food web , 2008 .

[22]  R. Franklin,et al.  Structural and Functional Responses of a Sewage Microbial Community to Dilution-Induced Reductions in Diversity , 2006, Microbial Ecology.

[23]  Weibo Song,et al.  Periphytic ciliate colonization: annual cycle and responses to environmental conditions , 2005 .

[24]  Y. Lei,et al.  Biomonitoring of coastal pollution status using protozoan communities with a modified PFU method. , 2002, Marine pollution bulletin.

[25]  B. Finlay,et al.  Freshwater protozoa: biodiversity and ecological function , 1998, Biodiversity & Conservation.

[26]  Guangjian Xu,et al.  Insights into discriminating water quality status using new biodiversity measures based on a trait hierarchy of body-size units , 2016 .