Assessing macrofouling

Canning-Clode, João, Sugden, H., Sylvester, F., Floerl, O. and Lenz, Mark (2014) Assessing macrofouling Biofouling Methods. Wiley, Chichester, UK, pp. 281-289. ISBN 978-0-470-65985-4 DOI 10.1002/9781118336144.ch9.

Full text not available from this repository.

Supplementary data:

Abstract

In this chapter a variety of field and laboratory techniques to assess biofouling assemblages are described. The first part, focusing on traditional methods, also includes methods of using image analysis, functional groups and several mathematical and theoretical models to estimate species diversity. The second part is applied and deals with the assessment of biofouling on in-service vessels in order to determine their biosecurity risk. The third part gives an overview of the methods required to undertake field experiments with biofouling assemblages on a global scale. Assessing fouling assemblages: This chapter focuses on traditional methods, also includes methods of using image analysis, functional groups and several mathematical and theoretical models to estimate species diversity. In ecology, manipulative experiments of living organisms are often carried out in the field, providing a real assessment of the community in question. As a precursor to these experiments a baseline survey of the natural community is essential to provide the wider context for change. The chapter gives some of the more popular methods used to assess fouling communities. The protocols necessary for carrying out these methods along with appropriate statistical techniques are discussed. Finally, a critique of the problems associated with each method is provided, and suggestions made for how to address these problems. Both field methods and digital methods are discussed in the chapter. Assessment of in-service vessels for biosecurity risk: Biofouling organisms, including sessile and mobile species, are encountered on all vessel types, including commercial vessels of all categories, naval ships, and recreational vessels. Criteria used to determine the biosecurity risk posed by hull fouling of in-service vessels are often specific to the requirements of environmental management agencies and result in the use of different sampling approaches. The biosecurity risk of vessels can also be estimated using abundance, biomass or richness of biofouling as the metrics of interest. This chapter provides guidance on approaches to determining the biosecurity risk of in-service vessels in situ or in dry-dock. It focuses on surveys designed to create biological inventories of vessel hulls and associated estimates of biofouling abundance. An absence of biofouling can only be guaranteed for inspections that have been designed using a statistical framework that provides a level of confidence of "freedom of infestation". Experiments on a global scale: The international research and student training program-Global Approach by Modular Experiments (GAME)-is one of a few initiatives worldwide that implements the scaling up of ecological studies from the regional to the global scale. Moreover, the innovative coupling of teaching and research and the propagation of a modular approach in experimental research makes it unique in marine sciences. Modularity means the simultaneous execution of identical experiments at multiple study sites that cover several biogeographic regions and climate zones. Marine epibiotic communities have repeatedly been recognized as suitable model systems for studies in community ecology and biodiversity research and such consortia of sessile metazoans and macroalgae have properties that make them for experimental studies. The chapter also presents chronology of a GAME project in seven major steps.

Document Type: Book chapter
Keywords: Biofouling organisms; Biosecurity risk; Digital methods; Field methods; Fouling assemblages; Global approach by modular experiments (GAME); In-service vessels; Marine ecology; Marine macrofouling communities
Research affiliation: OceanRep > GEOMAR > FB3 Marine Ecology > FB3-EOE-B Experimental Ecology - Benthic Ecology
DOI etc.: 10.1002/9781118336144.ch9
Date Deposited: 06 Jan 2015 08:10
Last Modified: 05 Aug 2016 07:28
URI: http://eprints.uni-kiel.de/id/eprint/26668

Actions (login required)

View Item View Item