Qualitative and quantitative changes in marine biofilms as a function of temperature and salinity in summer and winter

J. M. Y. Chiu; V. Thiyagarajan; M. M. Y. Tsoi; P. Y. Qian

doi:10.1017/S147905050500195X

Abstract

This study examined quantitative (dry weight, chlorophyll a content and C : N ratio) and qualitative (community compositions of bacteria and diatoms) changes in marine biofilms as a function of season (summer 2003 and winter 2004), temperature (16, 23 and 30°C) and salinity (20‰, 27‰ and 34‰) under laboratory conditions. Biofilms were allowed to develop for 20 days in the laboratory, using natural sea water collected from Port Shelter, Hong Kong. The following results were obtained: (1) biofilm dry weight was greater in summer than in winter, and greater at 34‰ than at 20‰; (2) biofilm chlorophyll a content was affected by all three factors (season, temperature and salinity), with significant interactive effects among the three factors; and (3) C : N ratio was affected by season (winter > summer) and temperature (30°C>16°C in summer), but not by salinity. Bacterial community composition was analyzed by terminal restriction-fragment length polymorphism of polymerase chain reaction-amplified 16 S rRNA genes. In summer, community compositions of both bacteria and diatoms were strongly affected by salinity. In addition, natural summer biofilms that developed at three field sites, where different salinities were found, harbored appreciably different bacterial and diatom community compositions. In contrast, in winter, temperature exerted a major influence on community compositions. The present study adds to the growing evidence that environmental factors are important determinants of both the quality and quantity of marine biofilms.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Witt, Verena Wild, Christian and Uthicke, Sven 2011. Effect of substrate type on bacterial community composition in biofilms from the Great Barrier Reef. FEMS Microbiology Letters, Vol. 323, Issue. 2, p. 188.

Witt, V Wild, C and Uthicke, S 2012. Interactive climate change and runoff effects alter O<sub>2 fluxes and bacterial community composition of coastal biofilms from the Great Barrier Reef. Aquatic Microbial Ecology, Vol. 66, Issue. 2, p. 117.

Bellou, Nikoleta Papathanassiou, Evangelos Dobretsov, Sergey Lykousis, Vassilis and Colijn, Franciscus 2012. The effect of substratum type, orientation and depth on the development of bacterial deep-sea biofilm communities grown on artificial substrata deployed in the Eastern Mediterranean. Biofouling, Vol. 28, Issue. 2, p. 199.

Fischer, M. Friedrichs, G. Lachnit, T. and Lovell, C. R. 2014. Fluorescence-Based Quasicontinuous and In Situ Monitoring of Biofilm Formation Dynamics in Natural Marine Environments . Applied and Environmental Microbiology, Vol. 80, Issue. 12, p. 3721.

Peres, Rafael S. Armelin, Elaine Alemán, Carlos and Ferreira, Carlos A. 2015. Modified tannin extracted from black wattle tree as an environmentally friendly antifouling pigment. Industrial Crops and Products, Vol. 65, Issue. , p. 506.

Peres, Rafael S. Armelin, Elaine Moreno-Martínez, Juan A. Alemán, Carlos and Ferreira, Carlos A. 2015. Transport and antifouling properties of papain-based antifouling coatings. Applied Surface Science, Vol. 341, Issue. , p. 75.

Zhang, Jinxia Pan, Mingxi Luo, Chuanbao Chen, Xiangping Kong, Jiangrong and Zhou, Tao 2016. A novel composite paint (TiO2/fluorinated acrylic nanocomposite) for antifouling application in marine environments. Journal of Environmental Chemical Engineering, Vol. 4, Issue. 2, p. 2545.

Hashimoto, Kyotaro Vasquez, Hebert Ely Kitamura, Hitoshi and Satuito, Cyril Glenn 2016. Variation in the abundance of periphytic algae in marine biofilms on glass surfaces submerged in the sea off Shin-Nagasaki Port, Nagasaki, Japan. Sessile Organisms, Vol. 33, Issue. 2, p. 29.

Hashimoto, Kyotaro Vasquez, Hebert Ely Kitamura, Hitoshi and Satuito, Cyril Glenn 2017. Larval settlement of the Pacific Oyster <i>Crassostrea gigas</i> in response to marine microbial films and monospecies bacterial films. Sessile Organisms, Vol. 34, Issue. 2, p. 21.

Khandeparker, Lidita Hede, Niyati Eswaran, Ranjith Usgaonkar, Akshaya and Anil, Arga Chandrashekar 2017. Microbial dynamics in a tropical monsoon influenced estuary: Elucidation through field observations and microcosm experiments on biofilms. Journal of Experimental Marine Biology and Ecology, Vol. 497, Issue. , p. 86.

Goh, P.S. Lau, W.J. Othman, M.H.D. and Ismail, A.F. 2018. Membrane fouling in desalination and its mitigation strategies. Desalination, Vol. 425, Issue. , p. 130.

Grzegorczyk, Maciej Pogorzelski, Stanisław Józef Pospiech, Aneta and Boniewicz-Szmyt, Katarzyna 2018. Monitoring of Marine Biofilm Formation Dynamics at Submerged Solid Surfaces With Multitechnique Sensors. Frontiers in Marine Science, Vol. 5, Issue. ,

Caruso, Gabriella 2020. Microbial Colonization in Marine Environments: Overview of Current Knowledge and Emerging Research Topics. Journal of Marine Science and Engineering, Vol. 8, Issue. 2, p. 78.

Anderson, Nicholas L. Barrett, Katherine L. Jones, Shannon E. and Belovsky, Gary E. 2020. Impact of abiotic factors on microbialite growth (Great Salt Lake, Utah, USA): a tank experiment. Hydrobiologia, Vol. 847, Issue. 9, p. 2113.

Vidal, José M. Miranda, Claudio D. De la Fuente, Mery Alarcón, Manuel Aroca, Germán Sossa, Katherine Ruiz, Pamela and Urrutia, Homero 2020. Formation of biofilms of the salmon pathogen Flavobacterium psychrophilum in differents surfaces using the CDC biofilm reactor. Aquaculture, Vol. 514, Issue. , p. 734459.

Santibañez, Natacha Vega, Matías Pérez, Tatiana Yáñez, Alejandro González-Stegmaier, Roxana Figueroa, Jaime Enríquez, Ricardo Oliver, Cristian and Romero, Alex 2020. Biofilm Produced In Vitro by Piscirickettsia salmonis Generates Differential Cytotoxicity Levels and Expression Patterns of Immune Genes in the Atlantic Salmon Cell Line SHK-1. Microorganisms, Vol. 8, Issue. 10, p. 1609.

Barrett, Katherine L. and Belovsky, Gary E. 2020. Great Salt Lake Biology. p. 145.

Pinnell, Lee J and Turner, Jeffrey W 2020. Temporal changes in water temperature and salinity drive the formation of a reversible plastic-specific microbial community. FEMS Microbiology Ecology, Vol. 96, Issue. 12,

Salikin, Nor Hawani Nappi, Jadranka Majzoub, Marwan E. and Egan, Suhelen 2020. Combating Parasitic Nematode Infections, Newly Discovered Antinematode Compounds from Marine Epiphytic Bacteria. Microorganisms, Vol. 8, Issue. 12, p. 1963.

Toleti , Subba R. 2021. Microbial Biofilms and Biotechnology – Some Perceptions. Current Biotechnology , Vol. 9, Issue. 4, p. 263.

Download full list

Article contents

Qualitative and quantitative changes in marine biofilms as a function of temperature and salinity in summer and winter

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Qualitative and quantitative changes in marine biofilms as a function of temperature and salinity in summer and winter

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests