Proxy-based model to assess the relative contribution of ballast water and biofouling’s potential propagule pressure and prioritize vessel inspections

Ceballos-Osuna, Lina; Scianni,; Falkner, M.; Nedelcheva, Raya; Miller, Whitman

doi:10.1371/journal.pone.0247538

Cited by 5 publications

(5 citation statements)

References 24 publications

(38 reference statements)

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“…Some examples are the time of year as it relates to the reproductive seasons of specific marine NIS and propagule pressure, i.e., the frequency and magnitude of marine NIS arrivals (Carlton, 1996 ; Lockwood et al., 2005 ). The latter is strongly influenced by the movement patterns of cargo vessels (Ceballos‐Osuna et al., 2021 ), i.e., the number and size of vessels transporting trade goods between various source‐destination locations (Verna et al., 2021 ), which is correlated to the strength of trade connections between regions. A complete risk assessment strategy would need to account for propagule pressure as well as the source‐destination risks (Verling et al., 2005 ).…”

Section: Discussionmentioning

confidence: 99%

Quantifying the probability of a successful marine bioinvasion due to source‐destination risk factors

Tzeng,

Floerl,

Schattschneider

et al. 2024

Ecology and Evolution

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The increasing spread of marine non‐indigenous species (NIS) due to the growth in global shipping traffic is causing widespread concern for the ecological and economic impacts of marine bioinvasions. Risk management authorities need tools to identify pathways and source regions of priority concern to better target efforts for preventing NIS introduction. The probability of a successful NIS introduction is affected by the likelihood that a marine species entrained in a transport vector will survive the voyage between origin and destination locations and establish an independently reproducing population at the destination. Three important risk factors are voyage duration, range of environmental conditions encountered during transit and environmental similarity between origin and destination. In this study, we aimed for a globally comprehensive approach to assembling quantifications of source‐destination risk factors from every potential origin to every potential destination. To derive estimates of voyage‐related marine biosecurity risk, we used computer‐simulated vessel paths between pairs of ecoprovinces in the Marine Ecoregions Of the World biogeographic classification system. We used the physical length of each path to calculate voyage duration risk and the cross‐latitudinal extent of the path to calculate voyage path risk. Environmental similarity risk was based on comparing annual average sea surface temperature and salinity within each ecoprovince to those of other ecoprovinces. We derived three separate sets of risk quantifications, one each for voyage duration, voyage path and environmental similarity. Our quantifications can be applied to studies that require source‐destination risk estimates. They can be used separately or combined, depending on the importance of the types of source‐destination risks that might be relevant to particular scientific or risk management questions or applications.

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Section: Discussionmentioning

confidence: 99%

Quantifying the probability of a successful marine bioinvasion due to source‐destination risk factors

Tzeng,

Floerl,

Schattschneider

et al. 2024

Ecology and Evolution

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“…Ceballos-Osuna et al used ballast water discharge volume as a proxy to assess the relative contribution of ballast water's potential propagule pressure. 28 Bradie et al further considered environmental distance and propagule pressure with information available on ballast water reporting forms. 29 While the information on ballast water reporting forms is reliable, incomplete reporting makes a worldwide picture difficult to ascertain.…”

Section: ■ Methodsmentioning

confidence: 99%

“…Several models or tools have been developed to estimate the ballast water-mediated NIS spread risks. Ceballos-Osuna et al used ballast water discharge volume as a proxy to assess the relative contribution of ballast water’s potential propagule pressure . Bradie et al further considered environmental distance and propagule pressure with information available on ballast water reporting forms .…”

Section: Methodsmentioning

confidence: 99%

Global Impacts of a Bilateral Trade Policy on Ballast Water-Mediated Species Spread Risk: A Case Study of Sino-US Trade

Wang

Kacimi

et al. 2023

Environ. Sci. Technol.

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A trade policy could generate both economic and environmental impacts. This work is focused on the impacts of a bilateral trade policy on ballast water-mediated nonindigenous species (NIS) spread risk. Taking the hypothetical Sino-US trade restriction as an example, we integrate a computable general equilibrium model and a higher-order NIS spread risk assessment model to examine the impacts of bilateral trade policy on both the economy and NIS spread risks. We have two important findings. First, the Sino-US trade restriction would cause decreases in NIS spread risks to China and the US, as well as to three quarters of worldwide countries/regions. However, the rest one fourth would experience increased NIS spread risks. Second, the relationship between changes in exports and changes in NIS spread risks might not be directly proportional. This is observed with 46% of countries and regions that would see their exports increase but their NIS spread risks drop, with positive impacts on both their economies and environment under the Sino-US trade restriction. These results reveal both broader global impacts as well as the decoupled economic and ecological impacts of a bilateral trade policy. These broader impacts demonstrate the necessity for national governments, which are parties to bilateral agreements to give due consideration to the economic and environmental impacts on countries and regions outside of the agreement.

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“…There have been numerous and varied approaches to detection, including basic manual sampling and monitoring [8] and inspections [9]; stakeholder and participant surveys to gauge presence and magnitude of impact [4,10] or develop conceptual models [11]; and analyzing eDNA [12]. Different approaches focus on modeling and predicting spread using risk assessment and screening tools [13,14], predicting egg transport [15], modeling propagule pressure [6,[16][17][18][19], and modeling of impedance surfaces to identify leastcost pathways of likely transmission [20]. Some of these techniques include gravity models, which commonly use empirical data on current source locations and likely destinations, based on proximity and connections through transportation pathways or human activities that increase risk of spread.…”

Section: Introductionmentioning

confidence: 99%

“…In North America, freshwater invasive species include algae such as didymo; a host of other aquatic plants such, as Hydrilla and water chestnut; and animal species, ranging in size and diversity from spiny water fleas and New Zealand mud snails, to Asian carp and nutria. Transmission and spread of aquatic invasives in freshwater can occur through multiple means, including extreme storm events [ 5 ], natural dispersal and range expansion, intentional stocking, direct connections through canals and inter-basin transfer of water, transport by shipping [ 6 ], and behaviors associated with tourism and recreation (for a comprehensive review, see [ 7 ])…”

Section: Introductionmentioning

confidence: 99%

Anglers as potential vectors of aquatic invasive species: Linking inland water bodies in the Great Lakes region of the US

2023

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Unimpeded transfer and spread of invasive species throughout freshwater systems is of global concern, altering species compositions, disrupting ecosystem processes, and diverting economic resources. The magnitude and complexity of the problem is amplified by the global connectedness of human movements and the multiple modes of inter-basin transport of aquatic invasive species. Our objective was to trace the fishing behavior of anglers delineating potential pathways of transfer of invasive species throughout the vast inland waters of the Great Lakes of North America, which contain more than 21% of the world’s surface freshwater and are among the most highly invaded aquatic ecosystems in the world. Combining a comprehensive survey and a spatial analysis of the movements of thousands of anglers in 12 states within the US portion of the Great Lakes Basin and the Upper Mississippi and Ohio River Basins, we estimated that 6.5 million licensed anglers in the study area embarked on an average of 30 fishing trips over the course of the year, and 70% of the individuals fished in more than one county. Geospatial linkages showed direct connections made by individuals traveling between 99% of the 894 counties where fishing occurred, and between 61 of the 66 sub-watersheds in a year. Estimated numbers of fishing trips to individual counties ranged from 1199–1.95 million; generally highest in counties bordering the Great Lakes. Of these, 79 had more than 10,000 estimated fishing trips originating from anglers living in other counties. Although angler movements are one mechanism of invasive species transfer, there likely is a high cumulative probability of invasive species transport by several million people fishing each year throughout this extensive freshwater network. A comprehensive georeferenced survey, coupled with a spatial analysis of fishing destinations, provides a potentially powerful tool to track, predict, curtail and control the transfer and proliferation of invasive species in freshwater.

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Proxy-based model to assess the relative contribution of ballast water and biofouling’s potential propagule pressure and prioritize vessel inspections

Cited by 5 publications

References 24 publications

Quantifying the probability of a successful marine bioinvasion due to source‐destination risk factors

Quantifying the probability of a successful marine bioinvasion due to source‐destination risk factors

Global Impacts of a Bilateral Trade Policy on Ballast Water-Mediated Species Spread Risk: A Case Study of Sino-US Trade

Anglers as potential vectors of aquatic invasive species: Linking inland water bodies in the Great Lakes region of the US

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