Fire promotes downy brome (Bromus tectorum L.) seed dispersal

Monty, Arnaud; Brown, Cynthia S.; Johnston, Danielle B.

doi:10.1007/s10530-012-0355-1

Cited by 29 publications

(29 citation statements)

References 31 publications

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“…In recent times however, opening through fire results also in an increased susceptibility of the burnt ecosystems towards the colonization of invasive alien species (Grund et al, 2005;Lonati et al, 2009;Maringer et al, 2012) or animal communities, e.g., Lyet et al (2009) and Blant et al (2010). Similar to what is reported for the Mediterranean (Arianoutsou and Vilà , 2012) or other fire prone ecosystems (Franklin, 2010;Monty et al, 2013), also in the Alpine environments fire may represent an unrequested spread channel for alien invasive species with pioneer character, what reinforce the selective pressure of fire in favour of disturbance adapted species of both native (Delarze et al, 1992;Tinner et al, 2000;Moser et al, 2010) and alien origin (Lonati et al, 2009;Maringer et al, 2012) (Fig. 7).…”

Section: Factors Limiting Fire Suppression Capacitysupporting

confidence: 66%

Fire, humans and landscape in the European Alpine region during the Holocene

Valese

Conedera

Held³

et al. 2014

Anthropocene

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Section: Factors Limiting Fire Suppression Capacitysupporting

confidence: 66%

Fire, humans and landscape in the European Alpine region during the Holocene

Valese

Conedera

Held³

et al. 2014

Anthropocene

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“…In grasslands, where the vegetation cover is higher, seed entrapment strongly reduced average dispersal distances. These results confirm those of Johnston (2011) and Monty et al (Monty et al, 2013), who found even more important rates of secondary dispersal of B. tectorum in areas with almost no vegetation (reclamation and burned areas, respectively). Research on other species also found an influence of vegetation on ground level dispersal through a decrease in wind speed, changes in wind turbulence and seed entrapment (Chambers, 2000;Marushia and Holt, 2006;McEvoy and Cox, 1987).…”

Section: Dispersal Steps and Agents -supporting

confidence: 90%

“…The most distal florets are often sterile, and remain attached to the most distal fertile caryopsis after fruit set. This results in two types of diaspores (Monty et al, 2013): the simple ones, consisting of a single filled caryopsis with an awned lemma and the complex ones including one filled caryopsis and one or several sterile florets, resulting in a diaspore with two or more awns (Fig. 1).…”

Section: Methodsmentioning

confidence: 99%

“…On a spikelet, the most distal florets often abort and remain attached to the most distal mature caryopsis (McKone, 1985;Monty et al, 2013). Caryopses and sterile florets bear pubescent awns.…”

Section: Introductionmentioning

confidence: 99%

“…It is a highly problematic invasive plant in the western United States (US) that influences fire cycles and has profoundly altered some ecosystems of the North American West (D'Antonio and Vitousek, 1992;Knapp, 1996;Mack, 1981). Despite documentation of wind dispersal in this species in particular environments (Johnston, 2011;Monty et al, 2013), little is known about its dispersal ecology and the role in dispersal of diaspore heteromorphism caused by the presence or absence of sterile florets.…”

Section: Introductionmentioning

confidence: 99%

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Diaspore heteromorphism in the invasive Bromus tectorum L. (Poaceae): Sterile florets increase dispersal propensity and distance

Monty

Maebe

Mahy

et al. 2016

Flora

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Please cite this article as: Monty, Arnaud, Maebe, Laura, Mahy, Grégory, Brown, Cynthia S., Diaspore heteromorphism in the invasive Bromus tectorum L.(Poaceae): sterile florets increase dispersal propensity and distance.Flora http://dx.doi.org/10.1016/j.flora. 2016.06.004 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.  Bromus tectorum is a troublesome invasive grass in North America.  The sterility of terminal florets induces a diaspore heteromorphism.  Dispersal of diaspores with and without sterile florets attached was investigated.  Primary and secondary dispersal by biotic and abiotic agents were considered.  Across the study, diaspores with sterile florets were better dispersers. 2 AbstractWithin a species, the distance travelled by a particular diaspore depends on its morphology. In Poaceae, the presence of terminal sterile florets can lead to diaspore heteromorphism, which may influence dispersal. We tested the hypothesis that the presence of sterile florets favored dispersal in Bromus tectorum L., an invasive grass in the Western US.We used field and controlled experiments to study the dispersal of caryopses with and without sterile florets attached (respectively complex and simple diaspores), as well as pieces of inflorescence that detached from the mother plants. We considered both primary and secondary dispersal, as well as abiotic and biotic dispersal agents. The distance travelled by the diaspores and their attachment to animal fur were related to the presence and number of sterile florets.Abiotic agents moved diaspores over relatively short distances, both in terms of primary and secondary dispersal. A significant proportion of diaspores attached to fur, suggesting a potential for dispersal over longdistances. Complex diaspores were better dispersers than simple ones (and pieces of inflorescence), and this pattern was consistent across the study. However, among complex diaspores, the number of sterile florets had little or no influence.Considering primary and secondary dispersal by abiotic and biotic agents provided a general picture of the dispersal ecology of B. tectorum. For all the dispersal steps and dispersal agents we studied, the presence of sterile florets favored dispersal. These results highlight the functional significance of diaspore heteromorphism induced by floret sterility in the dispersal of Poaceae.

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Creosote growth rate and reproduction increase in postfire environments

Molinari

Bishop

Bekker

et al. 2019

Ecology and Evolution

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Human activities are changing patterns of ecological disturbance globally. In North American deserts, wildfire is increasing in size and frequency due to fuel characteristics of invasive annual grasses. Fire reduces the abundance and cover of native vegetation in desert ecosystems. In this study, we sought to characterize stem growth and reproductive output of a dominant native shrub in the Mojave Desert, creosote bush (Larrea tridentata (DC.) Coville) following wildfires that occurred in 2005. We sampled 55 shrubs along burned and unburned transects 12 years after the fires (2017) and quantified age, stem diameter, stem number, radial and vertical growth rates, and fruit production for each shrub. The shrubs on the burn transects were most likely postfire resprouts based on stem age while stems from unburn transects dated from before the fire. Stem and vertical growth rates for shrubs on burned transects were 2.6 and 1.7 times higher than that observed for shrubs on unburned transects. Fruit production of shrubs along burned transects was 4.7‐fold more than shrubs along paired unburned transects. Growth rates and fruit production of shrubs in burned areas did not differ with increasing distance from the burn perimeter. Positive growth and reproduction responses of creosote following wildfires could be critical for soil stabilization and re‐establishment of native plant communities in this desert system. Additional research is needed to assess if repeat fires that are characteristic of invasive grass‐fire cycles may limit these benefits.

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Fire promotes downy brome (Bromus tectorum L.) seed dispersal

Cited by 29 publications

References 31 publications

Fire, humans and landscape in the European Alpine region during the Holocene

Fire, humans and landscape in the European Alpine region during the Holocene

Diaspore heteromorphism in the invasive Bromus tectorum L. (Poaceae): Sterile florets increase dispersal propensity and distance

Creosote growth rate and reproduction increase in postfire environments

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