Incorporation of colonization pressure into the propagule pressure‐based global ballast water standard

Author:

Hernandez Marco R.1ORCID,Barker Justin R.12ORCID,MacIsaac Hugh J.13ORCID

Affiliation:

1. Great Lakes Institute for Environmental Research University of Windsor Windsor Ontario Canada

2. Maps, Data, and Government Information Centre Trent University Peterborough Ontario Canada

3. School of Ecology and Environmental Science Yunnan University Kunming China

Abstract

AbstractAimIn 2024, cargo vessels must meet the International Maritime Organization's global ballast water discharge standards (IMO D‐2) that limit the concentration of living organisms. D‐2 focuses on reducing invasion risk by reducing ‘community propagule pressure (CPP)’, though it does not consider colonization pressure (CP).LocationGlobal.MethodsWe modelled risk differences in IMO D‐2‐compliant discharges (10 ind. m−3) for communities that had inverse patterns of CP and species' individual propagule pressures (IPP). Secondly, we determined the effect on risk of varying CPP and CP. As part of this, we tested whether the IMO D‐2 standard for zooplankton‐sized organisms of <10 individuals m−3 was an optimal choice. Risk was defined as probability of at least one species invading using four risk–release models.ResultsRisk differed strongly at the D‐2 limit based on community composition. At low CPP (<25 ind. m−3), risk was strongly affected by CP for hyperbolic and linear risk–release models and weakly for exponential and logistic models, while CPP affected only the former two model types. Across a much wider range of CPP values, risk was affected by CP, CPP and by their interaction for all models.Main ConclusionThe IMO D‐2 standard for zooplankton‐sized organisms requires very low CPP and even lower IPPs in mixed‐species releases, which will impede successful colonization. Species‐abundance theory predicts that discharges meeting the D‐2 standard (low CPP) will also have low CP. Much more empirical data are required to determine whether vessels can consistently reduce CP as it lowers CPP in order to meet these requirements.

Funder

Canada Research Chairs

Natural Sciences and Engineering Research Council of Canada

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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