Grass bud responses to fire in a semiarid savanna system

Hiers, Quinn A; Treadwell, Morgan L.; Dickinson, Matthew B.; Kavanagh, Kathleen L.; Lodge, Alexandra G.; Starns, Heath D.; Tolleson, Douglas R.; Wonkka, Carissa L.; Rogers, William E.

doi:10.1002/ece3.7516

Cited by 13 publications

(25 citation statements)

References 53 publications

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“…The reason for this may be related to the mesquite microenvironment re-establishing quickly following top-kill (Ansley et al 2019) and providing a nitrogen boost to Texas wintergrass in the first few years following fire. A recent study found that growing buds in caespitose Texas wintergrass are positioned lower than those of stoloniferous short-grass curly mesquite (Hilaria belangeri) and this may explain the tolerance of this species to even the most intense fires (Hiers et al 2021). We thus reject our hypothesis that the maintenance fires would restore or strengthen trends in herbaceous community responses that were established by the transition fire treatments.…”

Section: Grass Responses To Maintenance Firescontrasting

confidence: 64%

“…Thus, the rationale for our study was to accelerate the return of fire to the ecosystem via a pyric transition regime (a series of intense, repeated headfires, including some in summer, within a few years) that would top-kill most and possibly root-kill some mesquite compared with single fires, and facilitate the transition to C 4 grassland. This plan assumed the presence of C 4 mid-grass species in the seed and bud bank (Russell et al 2015, Hiers et al 2021 and recognized that C 4 grass recovery might be slower after summer fire (Trollope 1987, Engle et al 2000, Briske et al 2003.…”

Section: Prescribed Transition Firesmentioning

confidence: 99%

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Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?

2021

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Section: Grass Responses To Maintenance Firescontrasting

confidence: 64%

Section: Prescribed Transition Firesmentioning

confidence: 99%

Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?

2021

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“…Bud banks in many fire-prone species are dormant until fire activates them (Ott et al, 2019), and greater severity within the range of our study appears to increase the proportion of buds activated. However, subsequent growth from activated buds is supported by available plant resources (Hiers et al, 2021;Ott et al, 2019), and carbohydrate reserves are likely to be lowest in autumn for L. trinervium, at the end of the active growth season. This suggests that sufficient resources were available for vegetative recovery after either burn season, but as bud activation increased after autumn burns (with fire severity), resources were too limiting for flowering.…”

Section: Resprout Growthmentioning

confidence: 99%

Shifting season of fire and its interaction with fire severity: Impacts on reproductive effort in resprouting plants

Thomsen

Ooi

2022

Ecology and Evolution

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Fire regimes shape plant communities but are shifting with changing climate. More frequent fires of increasing intensity are burning across a broader range of seasons. Despite this, impacts that changes in fire season have on plant populations, or how they interact with other fire regime elements, are still relatively understudied. We asked (a) how does the season of fire affect plant vigor, including vegetative growth and flowering after a fire event, and (b) do different functional resprouting groups respond differently to the effects of season of fire? We sampled a total of 887 plants across 36 sites using a space‐for‐time design to assess resprouting vigor and reproductive output for five plant species. Sites represented either a spring or autumn burn, aged one to three years old. Season of fire had the clearest impacts on flowering in Lambertia formosa with a 152% increase in the number of plants flowering and a 45% increase in number of flowers per plant after autumn compared with spring fires. There were also season × severity interactions for total flowers produced for Leptospermum polygalifolium and L. trinervium with both species producing greater flowering in autumn, but only after lower severity fires. Severity of fire was a more important driver in vegetative growth than fire season. Season of fire impacts have previously been seen as synonymous with the effects of fire severity; however, we found that fire season and severity can have clear and independent, as well as interacting, impacts on post‐fire vegetative growth and reproductive response of resprouting species. Overall, we observed that there were positive effects of autumn fires on reproductive traits, while vegetative growth was positively related to fire severity and pre‐fire plant size.

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“…2013; Pausas & Paula 2020; Hiers et al . 2021). Temperatures in the soil surface and 50 cm aboveground were extremely elevated, especially in FI‐4 plots, hence even basal and aerial buds could be damaged.…”

Section: Discussionmentioning

confidence: 99%

“…Conversely, resprouting, which is the main postfire regeneration strategy in Cerrado open savannas (Pilon et al 2021;Zupo et al 2021), occurs mainly from underground buds (Zupo et al 2021) that are highly protected from fire (Pausas et al 2018). For most species, the vertical distribution of buds in the soil is unknown, but recent studies have shown that even though buds located in the upper layers may get killed, deeper buds are likely to survive and bear new shoots/tillers (Charles-Dominique et al 2015;Hiers et al 2021). However, resprouting can also occur from basal and aerial buds (Moore et al 2019;Zupo et al 2021), which are more likely to be damaged by fires or produce less vigorous resprouts (Clarke et al 2013;Pausas & Paula 2020;Hiers et al 2021).…”

Section: Post-fire Regenerationmentioning

confidence: 99%

Experimental burns in an open savanna: Greater fuel loads result in hotter fires

et al. 2022

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Fire is a main disturbance structuring vegetation worldwide, but few studies have addressed differences in time since last fire and its relationship to fuel load characteristics and fire behavior in Neotropical savannas. We aimed to investigate fire behavior in a Cerrado open savanna of Central Brazil by conducting prescribed fires in areas with different fire-free intervals: one year (FI-1), two years (FI-2), and four years (FI-4). Specifically, we evaluated (1) the amount of live, dead, and total biomass (components of the fuel load); (2) fire behavior, including fire temperatures in three different heights (1 cm belowground, on the soil surface, and 50 cm aboveground), fire duration, residence time, fire intensity, rate of spread, and flame height; and (3) the relationship between soil heating, fuels, and fire by identifying the most important parameters driving soil heating. Total and dead fuel loads were greater in areas with longer fire-free intervals in comparison with areas burned the previous year, with the greatest increment to the fuel bed occurring in the first two years after fire. Greater fuel loads (consequently greater dead fuel loads) resulted in differences in belowground soil heating (-1 cm), where temperatures varied from 39 to 82°C in FI-2 plots and from 40 to 131°C in FI-4 plots; in FI-1 plots temperatures belowground varied from 29 to 68°C. Temperatures on the soil surface and 50 cm aboveground were also greater in plots with longer fire-free intervals, reaching over 400°C on the soil surface and exceeding 500°C 50 cm aboveground. Finally, amount of dead fuel was the best predictor of belowground soil heating, highlighting the importance of fuel loads, which is a key factor to be monitored in fire management plans of Cerrado open savannas.

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Grass bud responses to fire in a semiarid savanna system

Abstract: This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Cited by 13 publications

References 53 publications

Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?

Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?

Shifting season of fire and its interaction with fire severity: Impacts on reproductive effort in resprouting plants

Experimental burns in an open savanna: Greater fuel loads result in hotter fires

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Grass bud responses to fire in a semiarid savanna system

Abstract: This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Cited by 13 publications

References 53 publications

Can prescribed fires restore C4grasslands invaded by a C3woody species and a co‐dominant C3grass species?

Can prescribed fires restore C4grasslands invaded by a C3woody species and a co‐dominant C3grass species?

Shifting season of fire and its interaction with fire severity: Impacts on reproductive effort in resprouting plants

Experimental burns in an open savanna: Greater fuel loads result in hotter fires

Contact Info

Product

Resources

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Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?

Can prescribed fires restore C₄grasslands invaded by a C₃woody species and a co‐dominant C₃grass species?