Unassisted invasions: understanding and responding to Australia’s high-impact environmental grass weeds

Klinken, Rieks D. van; Friedel, Margaret H.

doi:10.1071/bt17152

Cited by 19 publications

(16 citation statements)

References 73 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A similarity of long lag phases in trees and grasses, despite differences in life form and generation time is thus perplexing (see also Sutherland 2004). It is plausible that because members of both groups were intensely introduced simultaneously in late 19th and early twentieth centuries (Cook and Dias 2006;van Klinken and Friedel 2018), the subset of introduced grass species that evolved with time to become high impact invaders (e.g. grader grass [Themeda quadrivalvis], hymenachne [Hymenachne amplexicaulis] and Aleman grass [Echinochloa polystachia]) have followed similar high spread trajectories as that of the trees-seemingly encouraged by ecological novelty (unprecedented human-mediated changes at different ecological levels), high propagule pressure and ability to respond to and even alter natural disturbances of fire and inundation (van Klinken and Friedel 2018).…”

Section: Discussionmentioning

confidence: 99%

Lag times and invasion dynamics of established and emerging weeds: insights from herbarium records of Queensland, Australia

et al. 2021

View full text Add to dashboard Cite

Herbarium records provide comprehensive information on plant distribution, offering opportunities to construct invasion curves of introduced species, estimate their rates and patterns of expansions in novel ranges, as well as identifying lag times and hence “sleeper weeds”, if any. Lag times especially have rarely been determined for many introduced species, including weeds in the State of Queensland, Australia as the trait is thought to be unpredictable and cannot be screened for. Using herbarium records (1850–2010), we generated various invasiveness indices, and developed simple invasion and standardised proportion curves of changes in distribution with time for ~ 100 established and emerging weed species of Queensland. Four major periods (decades) of increased weed spread (spikes) were identified: 1850s, 1900–1920, 1950–1960 and 2000–2010, especially for grasses and trees/shrubs. Many weeds with spikes in spread periods did so only 1–2 decadal times, except for a few species with higher spike frequencies > 6; the majority of these spikes occurred recently (1950–1990). A significant proportion (~ 60%) of Queensland’s weeds exhibit non-linear increase in spread with time, and hence have lag phases (mean: 45.9 years; range: 12–126 years); of these lag-phase species, 39% are “sleeper” weeds with > 50 years of lag time (mainly trees/shrubs and grasses). Twelve traits of invasiveness, including lag time and species-specific/historical factors were screened, of which frequency of invasion waves, spread rates and residence time were the main drivers of weeds’ distribution. The low predictive power of lag time on weed distribution suggests that retrospective analyses offer little hope for a robust generalisation to identify weeds of tomorrow.

show abstract

Section: Discussionmentioning

confidence: 99%

Lag times and invasion dynamics of established and emerging weeds: insights from herbarium records of Queensland, Australia

et al. 2021

View full text Add to dashboard Cite

show abstract

“…Non‐native grasses in general threaten the integrity of vast areas of Australia (Firn et al., 2015; van Klinken & Friedel, 2018), yet their control and the recognition of their impact represents a chronic policy failure (Downey et al., 2010; Godfree et al., 2017). Unlike other key threats that have largely realized their potential ranges and impacts, buffel continues to rapidly spread beyond the 68% of the continent previously considered suitable for its establishment (Lawson, Bryant, & Franks, 2004) as evidenced by its invasion of new habitats and climates (Hobbs, Naby, & Schutz, 2015; Tschirner, Gibbs, & Heap, 2016).…”

Section: Discussionmentioning

confidence: 99%

“…Whereas other serious weeds of central Australia, like Tamarix aphylla and Parkinsonia aculeata, are outcompeted by established natural vegetation or are largely restricted to agricultural or disturbed areas with enhanced water or nutrient availability (Grice & Martin, 2006), buffel is an aggressive invader of many Australian arid and semi‐arid zone habitats (Fensham, Wang, & Kilgour, 2015; Firn et al., 2015; van Klinken & Friedel, 2018). Buffel directly suppresses (Abella, Chiquoine, & Backer, 2012; Eilts & Huxman, 2013) and threatens the persistence of many native plants (Clarke et al, 2005; Edwards, Schlesinger, Ooi, French, & Gooden, 2019; Eyre, Wang, Venz, Chilcott, & Whish, 2009; Fairfax & Fensham, 2000; Friedel et al., 2006) including threatened species (Griffin, 1993; Jackson, 2005).…”

Section: Introductionmentioning

confidence: 99%

Ranking buffel: Comparative risk and mitigation costs of key environmental and socio‐cultural threats in central Australia

Read

Firn

Grice

et al. 2020

Ecology and Evolution

View full text Add to dashboard Cite

Four contemporary ecological disruptions are widely recognized as dramatically and irreversibly recasting the ecology of Australia's arid and semi-arid zones which cover over 70% of the continent, namely alteration of fire regimes as a consequence of displacement of Aboriginal peoples practicing traditional land management; overgrazing and soil compaction caused by the introduction of large exotic herbivores; predation of native wildlife by introduced red foxes (Vulpes vulpes) and domestic cats (Felis catus); and degradation of soils

show abstract

“…Following these assessments, it was not included in the top 32 but was still deemed to be a significant threat to Australian biodiversity (Navie and Adkins, 2007). A recent study by Van Klinken and Friedel (2017) found that E. curvula within Australia is a high impact species but only in the localised communities where it is found, not nation- (Csurhes et al, 2016;Sharp, 2011). For Queensland and Northern Territory, it is not prohibited but there is a general biosecurity duty to remove and eliminate the species where practical to minimise any potential spread (Csurhes et al, 2016).…”

Section: Australiamentioning

confidence: 99%

“…Following these assessments, it was not included in the top 32 but was still deemed to be a significant threat to Australian biodiversity (Navie and Adkins, 2007). A recent study by Van Klinken and Friedel (2017) found that E. curvula within Australia is a high impact species but only in the localised communities where it is found, not nationally. The management of the species is mandated by the relevant state or territory government within Australia.…”

Section: Distribution Habitat and Current Management Of Eragrostis Curvulamentioning

confidence: 99%

Germination biology, distribution and control of the invasive species Eragrostis curvula [Schard. Nees] (African Lovegrass): A global synthesis of current and future management challenges

et al. 2021

View full text Add to dashboard Cite

Eragrostis curvula [Schrad. Nees] (African Lovegrass) is an invasive C 4 perennial grass that threatens the multifunctionality of agricultural landscapes in Australia, including agricultural productivity and biodiversity (Firn, 2009;Godfree et al., 2017). It is often described as an undesirable and moderately palatable species that is commonly found on lighter sandy soils along coastal areas within Australia; however, it can also be found further inland if conditions are suitable (Godfree et al., 2017;Roberts et al., 2021). When established, E. curvula can form dense swards that increase its competitiveness towards other species (Firn, 2009;Firn et al., 2010b;Johnston, 1989;Muyt, 2001). Further, research has shown that E. curvula has a strong allelopathic potential which may explain its dominance in grasslands (Ghebrehiwot et al., 2013). These swards can also lead to agricultural loss, a decline in co-occurring native species diversity and an increase in fire frequency and intensity, all of which can result in economic and environmental degradation of

show abstract

Unassisted invasions: understanding and responding to Australia’s high-impact environmental grass weeds

Cited by 19 publications

References 73 publications

Lag times and invasion dynamics of established and emerging weeds: insights from herbarium records of Queensland, Australia

Lag times and invasion dynamics of established and emerging weeds: insights from herbarium records of Queensland, Australia

Ranking buffel: Comparative risk and mitigation costs of key environmental and socio‐cultural threats in central Australia

Germination biology, distribution and control of the invasive species Eragrostis curvula [Schard. Nees] (African Lovegrass): A global synthesis of current and future management challenges

Contact Info

Product

Resources

About