Managing risk of non‐indigenous species establishment associated with ballast water discharges from ships with bypassed or inoperable ballast water management systems

Bradie, Johanna; Rolla, Matteo; Bailey, Sarah A.; MacIsaac, Hugh J.

doi:10.1111/1365-2664.14321

Cited by 7 publications

(3 citation statements)

References 85 publications

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“…To model establishment risk, first, we determined population sizes from discharge volumes obtained from Bradie et al (2022), which consisted of 10,000 recorded ballast water discharges that ranged from 20 to 1,060,620 m 3 (13,871 ± 25,738, mean ± standard deviation). We used volumes from 29 vessels sampled in Atlantic (Halifax, Hamilton, Saint John, Sorel) and Pacific (Vancouver) ports in Canada in 2017 and 2018 by Fisheries and Oceans Canada as a reference for empirical community composition in treated ballast water (Bailey et al, 2022).…”

Section: Methodsmentioning

confidence: 99%

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

Hernandez,

Barker,

MacIsaac

2023

Diversity and Distributions

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AimIn 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.

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Section: Methodsmentioning

confidence: 99%

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

Hernandez,

Barker,

MacIsaac

2023

Diversity and Distributions

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“…In addition, the abundance of living ≥50µm -sized organisms in non-compliant samples reached thousands of organisms m -3 several times, indicating that living organisms in the largest organism category may have been more resilient to ballast water treatment. Alternatively, the observed non-compliances may be associated with tank contamination, potentially due to several factors, such as insufficient crew training in operating and maintaining the BWMS, issues with connecting pipework and valves of the ship (e.g., valves malfunctioning, or not completely closed), bypass of the BWMS pumping untreated water into the ballast tanks, or inadequate ballast tank cleaning to remove all sediments at the time of BWMS installation (C ̌ampara et al, 2019;Gerhard et al, 2019;Bradie et al, 2023). In four out of five non-compliant commissioning tests included in the present study, non-compliance was due to tank contamination (presence of ≥50µm organisms living in the sediments) or malfunctioning ship valves allowing seepage of untreated ballast water from connected tanks (Stephanie Delacroix, unpublished data, September, 2023).…”

Section: Living Organism Concentrationsmentioning

confidence: 99%

Biological testing of ships’ ballast water indicates challenges for the implementation of the Ballast Water Management Convention

Outinen,

Bailey,

Casas-Monroy

et al. 2024

Front. Mar. Sci.

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Ships’ ballast water and sediments are vectors that contribute to the unintentional spread of aquatic non-native species globally. Ballast water management, as well as commissioning testing of ballast water management systems and compliance monitoring under the regulations of the International Maritime Organization (IMO) aim at minimizing the unwanted spread of organisms. This study compiles data for treated ballast water samples collected and analyzed from 228 ships during 2017–2023. The samples were collected from the ballast discharge line or directly from the ballast tank for enumeration of living organism concentrations in the categories of ≥50µm and <50 to ≥10µm -sized organisms, as well as indicator microbes in comparison to the ballast water performance standard of the IMO (Regulation D-2). In addition, several ship-specific factors were examined to infer potential factors affecting compliance rates. Nearly all ships were compliant with the ballast water performance standard for indicator microbes and <50 to ≥10µm -sized organisms, whereas almost half of all samples exceeded the limit of ten viable organisms m-3 for the ≥50µm -sized organisms. Compliance testing results did not differ significantly between sampling years, indicating that compliance rate did not change through time. The rate of compliance was higher for commissioning testing than compliance testing. Clear ship- or system-specific factors that lead to compliance or non-compliance were not detected, even though type of ballast water management system, filter mesh size associated with the system and source of ballast water affected compliance significantly either for the samples taken from the discharge line, or ballast tank. As compliance did not improve significantly over time, compliance testing of ships’ ballast water should be undertaken to ensure that the systems remain operational after commissioning and ships meet requirements of the D-2 standard. Furthermore, the study outcomes promote further research on the efficiency of filter mesh sizes and different filtration units associated with ballast water management systems, to improve mechanical removal of larger organisms. Finally, as several ships exceeded the compliance limit by hundreds or thousands of living organisms, technological advancements and operational measures may be needed to improve the overall reliability of ballast water management.

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“…This can also have an impact on the imbalance of marine ecosystems and adversely affect the marine life development (Bailey et al, 2022). The impact of the foreign species development at sea by the IMO is considered more difficult to overcome than the impact of pollution due to oil spills and has become a global problem that requires more serious attention from the entire world maritime community (Bradie et al, 2023;Casas-Monroy & Bailey, 2021;Čulin & Mustać, 2015).…”

Section: Introduction *mentioning

confidence: 99%

Modification of Ballast Filtering Device on John Lie Training Ship to Prevent Marine Pollution

Wijaya,

Masengi,

Manoppo

et al. 2023

J. Appl. Sci. Eng. Technol. Educ.

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This study aims to present appropriate selection methods for evaluation, analysis, and comparison between different ballast water treatment technology systems in order to make good decisions in selecting the most optimal treatment system. This research designed a ballast water filter device on the John Lie training ship to prevent marine pollution due to species movement through the ballast water transfer process by referring to the D2 standard of the IMO Ballast Water Management Convention. During the ballasting process, ballast water contains thousands of species of marine animals and plants that are carried in ballast tanks, causing problems for the marine environment and human health. The modification of the filtration tool designed by the researcher used a 0,1 mm and 0,01 mm net tied to the ballast tank inlet pipe using a clamp on the ballast pipe of the John Lie training ship. This can fully be used during the process of filling ballast water from port seawater to enter the ballast tank through this filtration system. The results shown after passing the filter with a total plate count of 36 microorganisms indicate that the filtration system designed by the researcher can meet the D2 standard of the IMO BWM Convention Regulation.

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Managing risk of non‐indigenous species establishment associated with ballast water discharges from ships with bypassed or inoperable ballast water management systems

Cited by 7 publications

References 85 publications

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

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

Biological testing of ships’ ballast water indicates challenges for the implementation of the Ballast Water Management Convention

Modification of Ballast Filtering Device on John Lie Training Ship to Prevent Marine Pollution

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