Australia’s Noxious Weeds and Similarity between Jurisdictional Lists

In total, we identified 1,236 unique plant taxa that are explicitly declared as noxious weeds in at least one Australian jurisdiction, composed of 511 genera and 126 families (Supplementary Appendix S4 in Supplementary Material 2). Of those 1,236 taxa, 206 are declared in every jurisdiction (16.7%). There are 47 whole genera declared across all jurisdictions. Twenty-two of the noxious weed species are recognized as native by the APC (i.e., they were declared in a jurisdiction outside their Australian native range) and two species have uncertain native status (Australian National Herbarium 2023). Of the 1,236 noxious weeds, ca. 95% were angiosperms (948 dicots and 233 monocots). The remaining ca. 5% were 50 pteridophytes, 3 gymnosperms, 1 lycophyte, and 1 bryophyte. The five major contributing families were Fabaceae (178 taxa), Asteraceae (166 taxa), Poaceae (96 taxa), Salicaceae (86 taxa), and Cactaceae (39 taxa), making up ca. 45% of all noxious weeds (Figure 2A). The five major contributing genera were Salix L. (82 taxa), Prosopis L. (52 taxa), Hieracium L. (42 taxa), Equisetum L. (34 taxa), and Rubus L. (22 taxa), comprising ca. 19% of all noxious weeds (Figure 2B).

Figure 2. The twenty most common (A) families and (B) genera of explicitly declared plant taxa (noxious weeds) in Australia. The families in A represent ca. 72% of noxious weed taxa. The genera in B represent ca. 33% of noxious weed taxa. The taxonomy is according to the Global Biodiversity Information Facility taxonomic database (GBIF 2021).

We found that neighboring jurisdictions do not have more similar lists of noxious weeds compared with separated jurisdictions (Figure 3A). On average, jurisdictions share ca. 67% (SD = 15%) of noxious weed listings. Neighboring jurisdictions share an average of ca. 70% (SD = 13%), and separated jurisdictions shared an average of ca. 66% (SD = 16%). Victoria (Vic) and Tasmania (Tas) had the most similar noxious weed lists while Western Australia (WA) was the least similar jurisdiction (Figure 3B). New South Wales (NSW) and Queensland (Qld) were another similar pair, and so were Northern Territory (NT) and South Australia (SA). The jurisdictional assemblages of noxious weeds are nested with 206 taxa declared in all jurisdictions (Figure 3C). WA had the largest number of noxious weeds and the largest number unique to the jurisdiction, 459/877 of WA’s noxious weeds were only declared within WA (Figure 3C). Australian Capital Territory (ACT) had the highest proportion of shared species and the smallest assemblage of noxious weeds.

Figure 3. Similarity among Australian jurisdictions in the noxious weeds they regulate. (A) Histograms comparing the proportion of overlap in noxious weeds between bordering (sharing a geographic border) and separated jurisdictions (no geographic border). Victoria and Tasmania are considered to be bordering. Count represents number of pair-wise jurisdictional companions. (B) Dendrogram showing the similarity between jurisdictions, more closely linked jurisdictions share more noxious weeds. (C) Heat map representing nestedness across the eight jurisdictions. Green represents presence and black represents absence of noxious weed taxa. Jurisdictions that share a green line share that taxon. (D) A map of Australia with jurisdictions labeled: ACT, Australian Capital Territory; NSW, New South Wales; NT, Northern Territory; Qld, Queensland; SA, South Australia; Tas, Tasmania; Vic, Victoria; and WA, Western Australia.

Our expectation was that neighboring jurisdictions would be more similar than separated jurisdictions in their noxious weed listings. While particular pairs of neighboring jurisdictions were similar, noxious weed listings were generally not more similar in neighboring than separated jurisdictions. However, we suggest this is not necessarily poor coordination between neighbors but demonstrates there is some regulatory consensus on noxious weeds across the country. A component of the calculated similarity in noxious weed lists is inherently due to the WoNS initiative (Hennecke Reference Hennecke2012), which coordinates management to prevent, eradicate, contain, or minimize impacts in all jurisdictions. The WoNS declared in all jurisdictions account for ca. 13% of noxious weeds (159 species and 2 subspecies). Another component is that all jurisdictions share a history of European colonization, which facilitated many hundreds of intentional and unintentional plant introductions that are native to Europe or were popular in European horticulture (Dodd et al. Reference Dodd, Burgman, McCarthy and Ainsworth2015). The jurisdictions also utilize broadly similar approaches to evaluating invasive plant risk, drawing on a national standard (Virtue et al. 2006). While neighboring jurisdictions are not more similar in their noxious weed lists, consensus is much greater across Australian jurisdictions compared with the United States, which also has jurisdiction-based regulation (Beaury et al. Reference Beaury, Fusco, Allen and Bradley2021a). This current consensus should help to promote and build even stronger cohesion in invasive plant regulation in Australia.

A further measure to improve cohesion in invasive plant regulation would be to adopt a national taxonomic standard. Declaration of a noxious weed species is mostly at the discretion of the jurisdiction, and accepted taxonomy is determined by each jurisdiction’s herbarium (Centre for Plant Biodiversity Research 2004). We encountered 11 problematic synonyms in use for noxious weeds and were unable to resolve a further 21 taxa. Accurate identification of invasive taxa is central to forming robust risk assessments and carrying out appropriate management actions (Pyšek et al. Reference Pyšek, Hulme, Meyerson, Smith, Boatwright, Crouch, Figueiredo, Foxcroft, Jarošík, Richardson, Suda and Wilson2013). This can be hindered by a conflicting and unresolved taxonomy (Aguilar et al. Reference Aguilar, Prakash, Ogburn, Lohan, MacDonald, Driskell, Ahyong, Leray, McIlroy, Tuckey and Baeza2022; Carlton Reference Carlton, Rilov and Crooks2009; Hirsch et al. Reference Hirsch, Gallien, Impson, Kleinjan, Richardson and Le Roux2017). Incorrect labeling has been attributed to the sale of prohibited invasive plants (La Canna Reference La Canna2016; Van den Neucker and Scheers Reference Van den Neucker and Scheers2022). Standardization of plant taxonomy between Australian jurisdictions has been recommended and sought out previously (Centre for Plant Biodiversity Research 2004; Martín-Forés et al. Reference Martín-Forés, Guerin, Lewis, Gallagher, Vilà, Catford, Pauchard and Sparrow2023). Particularly in the face of new and emerging invasive species, a unified national taxonomic standard will ensure accurate identification and effective regulation of invasive plants across all Australian jurisdictions.

Identifying Proactive and Discordant Regulation of Noxious Weeds

Australia’s noxious weeds were standardized as 1,229 taxa using the APC to determine naturalization status (Australian National Herbarium 2023). The majority of declarations in jurisdictions are dedicated to preventing noxious weeds establishing rather than managing those already present (Figure 4A). All jurisdictions had more harmonious regulation of noxious weed taxa (i.e., prevention declarations aligned with neighboring jurisdictions) than discordant regulation (i.e., unregulated noxious weed taxa that are declared by a neighboring jurisdiction) (Figure 5). There were 415 noxious weed taxa with harmonious regulation and 327 with discordant regulation (Supplementary Appendix S5 in Supplementary Material 3).

Figure 4. Comparison of the regulation of noxious weed taxa in each Australian jurisdiction. A noxious weed is defined as a plant that is legally declared as invasive in at least one Australian jurisdiction. The comparisons of regulations displayed are: (A) noxious weeds that are declared in the jurisdiction; (B) noxious weeds that have naturalized in the jurisdiction; and (C) noxious weeds that are not naturalized in the jurisdiction. Regulation categories are based on naturalization and declared status in each jurisdiction. Prevention: noxious weeds that are declared invasive by the jurisdiction but have not naturalized. Managed: noxious weeds that are declared invasive by the jurisdiction and have naturalized. Unregulated: noxious weeds that are not declared invasive by the jurisdiction but have naturalized. Absent: noxious weeds that are not declared invasive by the jurisdiction and have not naturalized. Jurisdictions are: ACT, Australian Capital Territory; NSW, New South Wales; NT, Northern Territory; Qld, Queensland; SA, South Australia; Tas, Tasmania; Vic, Victoria; and WA, Western Australia.

Figure 5. Number of noxious weeds in Australia that are regulated in a harmonious and discordant manner in each Australian jurisdiction. Harmonious regulation: noxious weeds that are declared but have not naturalized within a jurisdiction’s borders and are also declared by a neighboring jurisdiction. Discordant regulation: noxious weeds that have naturalized but are not declared within a jurisdiction’s borders and are declared by one or more neighboring jurisdictions (excluding native and doubtfully naturalized taxa). Jurisdictions are: ACT, Australian Capital Territory; NSW, New South Wales; NT, Northern Territory; Qld, Queensland; SA, South Australia; Tas, Tasmania; Vic, Victoria; and WA, Western Australia.

Approximately 50% (618 taxa) of the noxious weeds have naturalized in Australia. For these noxious weeds, the number of unregulated taxa was greater than the number of managed taxa in six of the eight jurisdictions (Figure 4B). For noxious weeds that have not naturalized, WA was the only jurisdiction to have more taxa with regulation than without (i.e., prevention vs. absent regulation) (Figure 4C). WA had a substantially higher number of taxa with preventive regulation compared with the rest of Australia (Figure 4C).

Australian jurisdictions take a proactive stance to biosecurity related to invasive plants, with many declarations dedicated to preventing invasion of noxious weeds. Yet by combining the lists and regulations of noxious weeds in Australia, we have revealed regulatory vulnerabilities that have potential and existing impacts to Australia’s biosecurity. Importantly, there are 327 noxious weeds that are regulated in a discordant manner. These are taxa that have naturalized in a jurisdiction but are not declared despite a neighboring jurisdiction declaring the taxa. This is not an isolated issue, with similar problems in the coordination of managing invasive species occurring in other regions around the globe (Aizen et al. Reference Aizen, Smith-Ramírez, Morales, Vieli, Sáez, Barahona-Segovia, Arbetman, Montalva, Garibaldi, Inouye and Harder2019; Beaury et al. Reference Beaury, Fusco, Allen and Bradley2021a, Reference Beaury, Patrick and Bradley2021b; Beninde et al. Reference Beninde, Fischer, Hochkirch and Zink2015; Bradley et al. Reference Bradley, Beaury, Fusco, Munro, Brown-Lima, Coville, Kesler, Olmstead and Parker2022; Epanchin-Niell et al. Reference Epanchin-Niell, Hufford, Aslan, Sexton, Port and Waring2010; Gichua et al. Reference Gichua, Njorage, Shitanda and Ward2013; Lakoba et al. Reference Lakoba, Brooks, Haak and Barney2020; Xu et al. Reference Xu, Vargo, Tsuji and Wylie2022).

Interestingly, eight discordant noxious weeds were WoNS, which are intended to be declared in all jurisdictions. Four of these eight species were permitted in WA and not assigned any control category for local government Madeira Vine [Anredera cordifolia (Ten.) Steenis], Flax leaf broom [Genista linifolia L.], Montpellier broom [Genista monspessulana (L.) L.A.S. Johnson], and African boxthorn [Lycium ferocissimum Miers]. Three of the eight were unlisted organisms in WA and thus not permitted entry into WA according to the jurisdiction’s legislation (Government of Western Australia 2020). However, the APC considers these species to already be naturalized in WA (Ground asparagus [Asparagus aethiopicus L.], Bridal veil creeper [Asparagus declinatus L.], and Snakefeather [Asparagus scandens Thunb.]) (Australian National Herbarium 2023). The final member of the eight species was Cabomba [Cabomba caroliniana A. Gray], which does not appear in Vic’s list of noxious weeds (Victorian Government 2017). These examples demonstrate that even the WoNS, a well-established and successful initiative, can suffer from practical and legislative challenges in coordinating the regulation of invasive species.

The predominance of prevention rather than management declarations (i.e., noxious weeds that have already naturalized) is, in part, a likely result of implementing weed risk assessments as strategic policy (CAST 2024; Virtue et al. Reference Van den Neucker and Scheers2006). Application of these assessments can help shift the regulation of invasive plants from a reactive to proactive strategy. Paired with this may be an avoidance to declare plants that have already naturalized, given that we found six out of eight jurisdictions have more naturalized noxious weed taxa that are unregulated than managed. We suggest there are three key reasons why jurisdictions choose not to regulate a naturalized plant taxon: (1) realized risk—some of these naturalized taxa may not be declared because their likelihood of becoming invasive is deemed to be low due to unsuitable conditions such as climate; (2) conflicting interests—some naturalized taxa may be invasive, but conflicting motivations from agriculture, forestry, and horticulture are preventing their regulation (e.g., olives [Olea europaea L.]) are invasive in SA but are an agricultural crop) (Crossman et al. Reference Crossman, Jupp, Virtue and Bass2002; Nicholson Reference Nicholson2006; Randall Reference Randall2001; Virtue and Melland Reference Virtue and Melland2003); and (3) feasibility—enforced regulations may be deemed impractical with a low benefit relative to cost. For example, post-border trade prohibitions are less effective for already abundant and widely distributed species (Hulme et al. Reference Hulme, Brundu, Carboni, Dehnen-Schmutz, Dullinger, Early, Essl, González-Moreno, Groom, Kueffer, Kühn, Maurel, Novoa, Pergl and Pyšek2018).

While realized risk, conflicting interests, and regulation feasibility can affect the decision to regulate a naturalized plant, these decisions should be subject to a review cycle. We recommend Australian jurisdictions evaluate the biosecurity risk of the 327 noxious weed taxa with discordant regulation (Supplementary Appendix S5 in Supplementary Material 3). These are taxa that have naturalized in a jurisdiction but remain unregulated, despite a neighboring jurisdiction regulating them. Not considering the impact to a neighboring jurisdiction of these taxa could jeopardize the neighbor’s biosecurity. The compiled list of discordant species we have provided is a valuable reference point for Australian jurisdictions to engage and methodically work toward greater harmonization of invasive plant management.

The feasibility of broadening declarations will vary considerably among the 327 noxious weed taxa with discordant regulation. An example of a species with feasible opportunity to align regulations is Amazon frogbit [Limnobium laevigatum (Humb. & Bonpl. ex Willd.) Heine] (Figure 6A). Declared in NSW and NT, it is not declared in the shared neighbor Qld. It grows rapidly and can reproduce vegetatively, which enables it to colonize waterways (Bickel et al. Reference Bickel, Farahani, Perrett, Xu and Vitelli2022; Madsen and Morgan Reference Madsen and Morgan2021). It is popular as an ornamental aquatic and is known to be traded online within Australia (Maher et al. Reference Maher, Stringham, Moncayo, Wood, Lassaline, Virtue and Cassey2023). Declaring the species within Qld has community support, and prohibiting its trade has potential to stem its spread (Willis and Brandel Reference Willis and Brandel2021). Conversely, a notoriously difficult species to coordinate is buffel grass (Cenchrus ciliaris L.) (Figure 6B). It is declared in SA but not in the surrounding jurisdictions of NSW, Qld, and WA. Introduced repeatedly as a pasture grass, it has become an extensive invader of arid ecosystems in Australia (Marshall et al. Reference Marshall, Lewis and Ostendorf2012). The economic benefit has prevented the species being more widely regulated. This is despite the damaging impacts C. ciliaris has to native plant diversity, natural fire regimes, and Aboriginal cultural sites and traditional resources (Bach et al. Reference Bach, Kull and Rangan2019; Miller et al. Reference Miller, Friedel, Adam and Chewings2010; Wright et al. Reference Wright, Latz, Albrecht and Fensham2021). Yet, given its widespread distribution and continued desirability as a pasture grass, broader declaration has been in doubt (Grice et al. Reference Grice, Friedel, Marshall and Van Klinken2012). Prohibition and eradication at regional scales have been suggested as viable alternatives for managing its impact (Grice et al. Reference Grice, Friedel, Marshall and Van Klinken2012; Wright et al. Reference Wright, Latz, Albrecht and Fensham2021). However, until very recently, NT was also discordant with SA regarding C. ciliaris, but in the time since our study was conducted, the plant has been declared in NT (BGWAC 2024). This development demonstrated that greater regulatory harmonization can be reached with even highly challenging invasive plants.

Figure 6. Two invasive plant species with differing feasibility for aligning regulation across Australian jurisdictions. (A) Amazon frogbit [Limnobium laevigatum (Humb. & Bonpl. ex Willd.) Heine] is a highly feasible subject for aligned regulation. While it is popular as an ornamental aquatic, declaring the species invasive has community support, and prohibiting its trade has real potential to prevent further spread. (B) Buffel grass (Cenchrus ciliaris L.) is a much less feasible subject for aligned regulation, because it has invaded extensive areas of arid Australia and is also used as a pasture grass. Image credits: (A) Phillip Cassey; (B) Mark Marathon.

Although current conditions may diminish the invasive potential of a naturalized plant species, increased propagule pressure, land-use changes, and climate change can all alter future naturalization potential (Duncan Reference Duncan2021; Gallagher and Leishman Reference Gallagher, Leishman, Stow, Maclean and Holwell2014; Haeuser et al. Reference Haeuser, Dawson, Thuiller, Dullinger, Block, Bossdorf, Carboni, Conti, Dullinger, Essl, Klonner, Moser, Münkemüller, Parepa and Talluto2018). While conflicting interests around invasive species management can be unavoidable, opinions and interests from relevant parties can also change over time. Anticipating rather than reacting to conflicts can help in reaching balanced resolutions with education and transparency in decision making (Crowley et al. Reference Crowley, Hinchliffe and McDonald2017). Surveying public opinions, consultations with interested parties, and seeking feedback are all methods that can help anticipate where conflicts will arise around invasive species (Crowley et al. Reference Crowley, Hinchliffe and McDonald2017; Graham et al. Reference Graham, Wyllie, Wilkerson, Williams, Sharp, Cherry, Martin, Campbell and Hawkes2022; Novoa et al. Reference Novoa, Shackleton, Canavan, Cybèle, Davies, Dehnen-Schmutz, Fried, Gaertner, Geerts, Griffiths, Kaplan, Kumschick, Le Maitre, Measey and Nunes2018). We recommend that jurisdictions incorporate these collaborative decision-making approaches and continually involve neighboring jurisdictions in their weed risk-assessment process. Despite the varied outcomes in feasibility of aligning declarations, we recommend that the discordant noxious weeds we have identified serve as a starting point for collaboratively reviewing regulatory coordination.

Trends in Noxious Weed Native Range, Entry Pathway, and Impact

We found that the native ranges of noxious weed species in Australia are concentrated in western Europe around the Mediterranean basin (Figure 7). However, on average (across jurisdictions), the greatest number of noxious weed taxa were native to the Asia–temperate region (Figure 8). We found statistically significant differences in the native biogeographic regions of noxious weeds between jurisdictions (χ² (35, 5,417) = 125.12, P < 0.001) (Figure 9). We found a significantly greater than expected number of noxious weeds native to: Asia–tropical for WA; Europe for Tas and Vic; Northern America for Qld; and Southern America for Qld and NT. There was a significantly lower than expected number of noxious weeds native to: Africa for ACT, Europe for NT and Qld, Northern America for Tas, and Southern America for WA.

Figure 7. Native range of plant species declared in Australia (noxious weeds). The color scale represents the number of species in a geographic unit. The map is divided into countries and by political subdivisions for large countries (Argentina, Australia, Brazil, Canada, Chile, China, India, Mexico, Russia, South Africa, and United States) in accordance with level 3 of the World Geographical Scheme for Recording Plant Distributions (Brummit Reference Brummit2001).

Figure 8. Number of noxious weed taxa in each native range, entry pathway, and impact category across jurisdictions. The medians are indicated by vertical lines. Data points are distributed with a bin width of 10 and colored using the Okabe-Ito color palette to assist visualization (Okabe and Ito Reference Okabe and Ito2002). Jurisdictions are: ACT, Australian Capital Territory; NSW, New South Wales; NT, Northern Territory; Qld, Queensland; SA, South Australia; Tas, Tasmania; Vic, Victoria; and WA, Western Australia.

Figure 9. Mosaic plot of the deviation in independence between noxious weeds declared in Australian jurisdictions and their native biogeographic regions. The size of each rectangle is proportional to the observed number of noxious weed taxa in each trait. The residual shading reflects the deviation of observed from expected quantities. The colored shading indicates observed quantities that are significantly higher (blue) or significantly lower (red) than the expected quantities (α = 0.05). Gray shading indicates nonsignificance. We removed three biogeographic regions that had relatively low numbers of observations from our analysis: Australia (43 species), Pacific (25 species), and Antarctic (2 species). Jurisdictions are: ACT, Australian Capital Territory; NSW, New South Wales; NT, Northern Territory; Qld, Queensland; SA, South Australia; Tas, Tasmania; Vic, Victoria; and WA, Western Australia.

The predominant entry pathway associated with Australia’s noxious weeds was the ornamental trade (Figure 7). The second was herbal, which is plants considered to be of medicinal use. This was followed by the crop, pasture, and forestry pathways. We found statistically significant differences in the entry pathways of noxious weeds between jurisdictions (χ² (28, 6,279) = 42.99, P = 0.035). We found ACT was significantly more likely to declare noxious weeds associated with the forestry pathway (Supplementary Figure S1A in Supplementary Material 1), which may reflect a mass introduction of trees and shrubs during the early 20th century (Mulvaney Reference Mulvaney, Groves, Panetta and Virtue2001). WA was significantly more likely to declare noxious weeds associated with the herbal pathway, and less likely to declare those from the forestry pathway (Supplementary Figure S1A in Supplementary Material 1). Overall, a greater number of noxious weed taxa impact agriculture than the natural environment (Figure 8). However, no jurisdictions were significantly more or less likely to declare noxious weeds that impact agriculture or the environment (χ² (7, 3,420) = 7.686, P = 0.361) (Supplementary Figure S1B in Supplementary Material 1).

Understanding the current trends in a jurisdiction’s noxious weeds reveals current management priorities, but also where shifts will be needed. Predictably, jurisdictions declare noxious weeds native to similar climatic regions, and ornamental horticulture is a major entry pathway. However, as globalized horticulture trade continues to increase in scope and diversity, we can expect to see an increase in the number of invasive species and shifts in their biogeographic origin (Dehnen-Schmutz et al. Reference Dehnen-Schmutz, Holdenrieder, Jeger and Pautasso2010; Dodd et al. Reference Dodd, Burgman, McCarthy and Ainsworth2015; Hulme et al. Reference Hulme, Brundu, Carboni, Dehnen-Schmutz, Dullinger, Early, Essl, González-Moreno, Groom, Kueffer, Kühn, Maurel, Novoa, Pergl and Pyšek2018; Pyšek et al. Reference Pyšek, Hulme, Simberloff, Bacher, Blackburn, Carlton, Dawson, Essl, Foxcroft, Genovesi, Jeschke, Kühn, Liebhold, Mandrak and Meyerson2020; Seebens et al. Reference Seebens, Essl, Dawson, Fuentes, Moser, Pergl, Pyšek, van Kleunen, Weber, Winter and Blasius2015; van Kleunen et al. Reference van Kleunen, Dawson, Essl, Pergl, Winter, Weber, Kreft, Weigelt, Kartesz, Nishino, Antonova, Barcelona, Cabezas, Cárdenas and Cárdenas-Toro2015, Reference van Kleunen, Essl, Pergl, Brundu, Carboni, Dullinger, Early, González-Moreno, Groom, Hulme, Kueffer, Kühn, Máguas, Maurel and Novoa2018; Westphal et al. Reference Westphal, Browne, MacKinnon and Noble2008). For Australian jurisdictions, a shift toward preventing and managing the establishment of invasive plants from warmer, drier climates will be necessary (Bradley et al. Reference Bradley, Blumenthal, Early, Grosholz, Lawler, Miller, Sorte, D’Antonio, Diez, Dukes, Ibanez and Olden2012; Whetton et al. Reference Whetton, Grose and Hennessy2016). Drought-tolerant ornamental plants should draw attention for weed risk assessment, and species with medicinal use (i.e., herbal) may also emerge as new weeds. Currently, Australia’s management of invasive plants tends toward prevention, which will be beneficial under climate change. However, assessments should not overlook species that have already naturalized, as climate shifts will facilitate the shift from naturalization to invasion status (van Kleunen et al. Reference van Kleunen, Essl, Pergl, Brundu, Carboni, Dullinger, Early, González-Moreno, Groom, Hulme, Kueffer, Kühn, Máguas, Maurel and Novoa2018; Webber et al. Reference Webber, Van Klinken, Scott and Dukes2014).

Recommendations

We have provided a current consolidated dataset and analysis of noxious weeds in Australian jurisdictions. Encouragingly for biosecurity, noxious weeds tend to be declared proactively, and broad similarity exists in declared lists across the country. However, differences in jurisdiction-based declarations reveal vulnerabilities in Australia’s biosecurity. We recommend three actions for Australia’s jurisdictions to achieve a more cohesive effort against the impact of noxious weeds. (1) Jurisdictions should reevaluate the 327 noxious weeds whose current regulation status may place neighboring jurisdictions at risk. (2) Reevaluations and future weed risk assessments should collaborate with, and continually involve, neighboring jurisdictions. These codeveloped regulations should extend to relevant industries and the public to help anticipate and resolve conflicts around invasive taxa. (3) Jurisdictions should explore existing alternative regulatory approaches to jurisdiction-based declarations, as these alternatives will provide flexibility and/or greater national harmonization in regulations. The currently underutilized National Categorisation System for Invasive Species proposed coordinated bans on entry and trade of plants within Australia (AWC and VPC 2012). More flexible approaches, such as a general biosecurity duty, may prove useful, because it relies on a “duty” to control any invasive species rather than explicitly declaring specific taxa (New South Wales Biosecurity Regulation 2017, Queensland Biosecurity Act 2014, Tasmania Biosecurity Act 2019; Martin and Taylor Reference Martin and Taylor2018). By addressing discrepancies in jurisdiction-based declarations we can achieve a nationally cohesive approach to noxious weeds. The international community has agreed that enhanced coordination and improving policy coherence across international and regional mechanisms is a key strategy for mitigating the impacts of invasive alien species (IPBES 2023). One specific way to achieve this is providing current data on invasive species and their governance to prioritize actions and improve management outcomes (IPBES 2023). We have realized this for Australia by providing a consolidated dataset of noxious weeds (Supplementary Appendix S4 in Supplementary Material 2) and identifying current vulnerabilities in invasive plant regulation.