Controls over native perennial grass exclusion and persistence in California grasslands invaded by annuals

Mordecai, Erin A.; Molinari, Nicole A.; Stahlheber, Karen A.; Gross, Kevin; D’Antonio, Carla M.

doi:10.1890/14-2023.1

Cited by 19 publications

(35 citation statements)

References 57 publications

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“…Findings of this study have important implications for understanding historical spread of invasive species in Californian grasslands, and point to cascading effects in invasion with an exotic species (Avena) replacing native species through positive litter feedback effects and successively promoting the expansion of a new invader (Elymus). Previous models of plant invasion principally focused on competition between native and exotic species (Godoy & Levine 2014;Mordecai et al 2015), but our results demonstrate that direct and indirect effects of litter may also play a major role (Foster & Gross 1998;Suding & Goldberg 1999). Evaluating litter feedback effects is particularly important because increasing drought events related to climate change are expected to slow down litter decomposition rates (Henry et al 2008;Santonja et al 2015) and might strengthen the relative importance of litter accumulation (Dukes & Mooney 1999;Bardgett et al 2013) in the next few decades.…”

mentioning

confidence: 68%

Positive litter feedbacks of an introduced species reduce native diversity and promote invasion in Californian grasslands

Mariotte

Spotswood

Farrer

et al. 2016

Applied Vegetation Science

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Questions Californian grasslands have a long history of invasion, starting with the introduction of exotic forage species a century ago, and followed by newer waves of invaders. Both exotic and invasive species produce large amounts of litter, but the importance of litter accumulation on the growth and expansion of these species has not been rigorously assessed. We addressed the following questions: (1) do litter type (exotic or invasive species) and litter quantity affect exotic and invasive plant performance; (2) at which plant life stages does litter accumulation effects occur; and (3) is litter accumulation impacting native species recruitment and diversity? Location Semi‐natural grasslands, northern California. Methods We created litter quantity gradients (0, 62.5, 125, 250 or 500 g·m−2) of three litter types (exotic or invasive species litter or a mixture of both). We evaluated litter effects on the germination, recruitment, production of flowers and biomass production of the exotic Avena fatua, the invasive Elymus caput‐medusae and a mixture of native species. We used litter depth as a proxy for litter accumulation and measured litter impacts on light availability at ground level, soil moisture, soil and microbial C and N. Results We found a significant litter depth impact on all species, but no litter type effects. Litter accumulation principally reduced light availability at ground level and positively affected exotic and invasive species at different life‐history stages. Above‐ground biomass production of the exotic species Avena increased with increased litter depth, suggesting a litter accumulation feedback. The invasive species Elymus responded to increased litter with increased seed production, rather than biomass production. In contrast, litter negatively affected the recruitment and diversity of native species. Conclusion Overall, our findings point to cascading effects in invasion with positive litter accumulation feedbacks of an exotic species simultaneously reducing native diversity and promoting seed production of a more recent invasive arrival. These results have strong consequences for invasion management and suggest that litter removal practices, such as burning and grazing, would better succeed at limiting the growth and spread of invasive species than herbicide application or seeding.

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mentioning

confidence: 68%

Positive litter feedbacks of an introduced species reduce native diversity and promote invasion in Californian grasslands

Mariotte

Spotswood

Farrer

et al. 2016

Applied Vegetation Science

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“…However, a disturbance that is severe enough to kill Stipa adults and allow the establishment of Avena can shift basins of attraction towards an Avena state where Stipa is not able to reinvade, as Stipa populations rely primarily on adult survival than an intact seedbank to buffer population size (Mordecai et al . ). These dynamics likely occur during type conversions following severe fires (Larios, Aicher & Suding ), and suggest that practices that protect remnants from severe disturbances should be high priority for these areas.…”

Section: Discussionmentioning

confidence: 97%

“…Because we are simulating population size for two life stages of Stipa – seedlings and adults – we created a matrix describing the transition between seedling and adult and calculated GRWR as the dominant eigenvalue of the matrix of transitions rates between these two life stages (Mordecai ; Mordecai et al . ). The communities would be considered separate states if the invader could not increase when rare, while the other species is at equilibrium.…”

Section: Methodsmentioning

confidence: 97%

“…Levine & HilleRisLambers ; Mordecai et al . ), which adjusts growth rate by competitive interactions with other species. Below we outline, how we applied this approach to the life history of these species.…”

Section: Methodsmentioning

confidence: 99%

“…There is a rich body of literature using demographic modelling to evaluate when systems – generally characterized by the dominant species or a key functional group – may resist or be susceptible to invasion by another species or functional group (Levine & HilleRisLambers ; Mordecai et al . ). This approach can similarly be applied to infer whether systems are stable, have low resilience, or given the right starting conditions, can convert to an alternate state.…”

Section: Introductionmentioning

confidence: 97%

See 2 more Smart Citations

Where and how to restore in a changing world: a demographic‐based assessment of resilience

Larios

Hallett

Suding

2017

Journal of Applied Ecology

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Summary Managers are increasingly looking to apply concepts of resilience to better anticipate and understand conservation and restoration in a changing environment. In this study, we explore how information on demography (recruitment, growth and survival) and competitive effects in different environments and with different starting species abundances can be used to better understand resilience. We use observational and experimental data to better understand dynamics between native Stipa pulchra and exotic Avena barbata and fatua, grasses characteristic of native and invaded grasslands in California, at three different levels of nitrogen (N) representative of a range of pollution via atmospheric deposition. A modelling framework that incorporates this information on demography and competition allows us to forecast dynamics over time. Our results showed that resilience of native grasslands depends on N inputs, where natural recovery should be possible at low N levels whereas native persistence would be difficult at high N levels. Hysteresis was evident at moderate N levels, where the starting conditions mattered. Synthesis and applications. The resilience of both invaded and native grasslands is influenced by nitrogen inputs. Our modelling approach gives direction about how best to allocate limited management resources as baselines shift: where natural recovery is possible, where best to allocate active restoration efforts, and where native remnants may be most vulnerable.

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Between invaders and a risky place: Exotic grasses alter demographic tradeoffs of native forb germination timing

2017

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Abstract. Priority effects are hypothesized to play an important role in community assembly and may promote suppression of native by exotic species. Work in a range of grassland systems has proved valuable for testing these effects, demonstrating that earlier germination by some exotic annual grasses contributes to their competitive dominance over natives. Yet few studies have measured native forb germination phenology under field conditions, and the demographic consequences of emergence timing for competitive interactions and native fitness are not well understood. We focused on three native annual species in a southern California grassland dominated by exotic Bromus spp. over three years, measuring (1) seedling emergence rates, for both early (October) and later (November and December) germinators; (2) effects of exotic grasses on native survival and reproduction, through a grass removal experiment; and (3) interactions between emergence timing and grass competitive effects on native mortality, survival, and flowering. We quantified tradeoffs of emergence timing, by estimating mortality experienced by early germinants until the late cohort emerged (early survival), and then for both cohorts from the time of late emergence to flowering (spring survival). The two most common focal natives, Amsinckia intermedia and Phacelia distans, varied substantially in germination phenology but primarily emerged early. The less abundant Clarkia purpurea germinated late. Late emergence reduced spring survival in control plots but not those where exotic grasses were reduced experimentally, supporting the importance of priority effects and benefits of early germination in competition with grasses. However, early emergence entailed a high cost of initial mortality risk in some years. We found no effect of emergence timing on size at flowering. Estimates of net survivorship to flowering suggest that late emergence consistently was associated with the highest survival when exotic grasses were reduced experimentally. Early emergence was more favored in control than in exotic grass reduction plots, but the survival tradeoffs differed substantially between years. These results suggest that priority effects contribute to suppression of native forbs, but may not consistently promote higher fitness for earlier germinators. Instead, exotic invasion may increase yearly variation in the fitness consequences of native germination phenology, with potential implications for bet hedging strategies.

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Controls over native perennial grass exclusion and persistence in California grasslands invaded by annuals

Cited by 19 publications

References 57 publications

Positive litter feedbacks of an introduced species reduce native diversity and promote invasion in Californian grasslands

Positive litter feedbacks of an introduced species reduce native diversity and promote invasion in Californian grasslands

Where and how to restore in a changing world: a demographic‐based assessment of resilience

Between invaders and a risky place: Exotic grasses alter demographic tradeoffs of native forb germination timing

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