Showing posts with label fire. Show all posts
Showing posts with label fire. Show all posts

Monday, March 11, 2019

Life isn't all Rainbows and Butterflies...

Guest post by Carolyn Thickett, MSc. Candidate at the University of Toronto-Scarborough

Life isn't all Rainbows and Butterflies...

… especially in an age of extreme habitat loss, chemical pollution, invasions by alien species and climate change. All of these pressures are contributing to the dramatic decline of insects currently being observed all around the world.

In Canada, the general public is responding by trying to contribute their time and knowledge in any way that they can. Citizen Science programs encourage people with little or no previous experience to participate by working with staff from one of the conservation areas in the Greater Toronto Area. These programs are aimed at engaging the general public in conservation efforts for the purpose of education, but with the added benefit of reducing the cost of expensive conservation work.

Many more events are happening out of the public eye, not advertised, even held in secret. I attended one such event this past June, held in an undisclosed location, in Eastern Ontario. This was an invitation-only event, attended by a consortium of people concerned about the status of the Mottled Duskywing Butterfly in Ontario, spearheaded by butterfly enthusiast Jessica Linton.

Mottled Duskywing Butterfly. Photo: Carolyn Thickett


Dr. Gard Otis, a bee and butterfly researcher from the University of Guelph, is unveiling new
information about these specialist butterflies and their unique habitat requirements. The Mottled Duskywing depends on New Jersey Tea (Ceanothus americanus), a plant that is common to alvars as well as sandy soils supporting oak savannas, a critically endangered habitat in Canada. Land management issues related to the preservation and restoration of grassland habitats, such as oak savannas, must then be included in the Mottled Duskywing recovery strategy.

One of those issues is fire suppression, originally put into practice due to the inherent risk to
property and human lives. The suppression of fire over time promotes plant succession, which is the process by which grasslands turn into shrublands, then into thickets and eventually into forests. Succession is detrimental to New Jersey Tea. It is a grassland plant that requires full sun and is unable to compete with the increasing canopy density of a forest. But what if fire wasn’t suppressed? Wouldn’t New Jersey Tea burn too?



As it turns out, New Jersey Tea is not only tolerant of fire, but it produces vigorous growth shortly after a fire disturbance (Throop & Fay, 1999). So, there is a threatened population of butterflies… living in a rare habitat… and scientists are setting it on fire?? Yup. It’s called prescribed burning.

But how do the butterflies survive such a disturbance? Sites are burned in sections, creating a patchwork of habitat with some portions left for conditions required by the butterflies. Some research by Swengel and Swengel (2007) suggests that some permanent unburned areas within the landscape may be important for specialist Lepidopterans, such as the Mottled Duskywing and the Karner Blue Butterfly (Lycaeides melissa samuelis), which is extirpated in Canada. Additionally, fire can provide many benefits which can even outweigh the risks. Recent work by Henderson et al. (2018) shows the short-term positive effect on another grassland butterfly to prescribed fire regimes. The diagrams below illustrate the results of their study and show the positive benefit derived from regular, and even frequent, burns.



Dr. Otis and myself walked transects through specific locations within the landscape, recording the location of each Mottled Duskywing that we encountered, the quantity of New Jersey Tea plants and keeping tally of the totals. Dr. Otis’ study will examine how Mottled Duskywings respond to the prescribed burns by utilizing different portions within the landscape. The next prescribed burn will occur early next spring by property staff, then the butterfly populations will again be assessed and compared with the baseline data.

In addition, staff at the Cambridge Butterfly Conservatory are currently working on determining the caterpillar rearing requirements of a related species, the Wild Indigo Duskywing. At this point they have had success getting females to lay eggs in captivity and rearing the larvae. The knowledge gained with the Wild Indigo Duskywings will be applied to the Mottled Duskywings, working towards reintroduction to one or more sites where they used to occur within the province, perhaps as early as 2020.

The Mottled Duskywing butterfly population we surveyed is the largest in Canada. At the end of the count, we received word that 4 teams of observers recorded 210 butterflies. This was great news for the researchers as the population appears to be stable, although the true population can only be determined through a detailed mark-recapture study which is tentatively being planned for summer 2019.

Mottled Duskywing conservation is gaining momentum… work has already started on habitat recovery and caterpillar rearing protocols. The information gathered and recovery actions taken could have implications for many other native prairie and grassland species. The same can be said for every other count, assessment, or restoration event. Whether you are a researcher or a concerned citizen, get involved. Know that your efforts could have massive implications for biodiversity, you could even SAVE a species from extinction!

To get involved in conservation, visit citizen science.

For more information on Mottled Duskywing butterflies, read the recovery strategy.

References

Fickenscher, J.L., Litvaitis, J.A., Lee, T.D. & Johnson, P.C. Insect responses to invasive shrubs:
Implications to managing thicket habitats in the northeastern United States. Forest Ecology
and Management 322 (complete), 127-135 (2014).

Henderson, Richard A., Meunier, Jed, & Holoubek, Nathan S. Disentangling effects of fire,
habitat, and climate on an endangered prairie-specialist butterfly. Biological Conservation 218
(complete), 41-48 (2018).

Swengel, A. B. & Swengel, S. R. Benefit of permanent non-fire refugia for Lepidoptera
conservation in fire-managed sites. Journal of Insect Conservation 11, 263–279 (2007).

Throop, Heather L. & Fay, Philip A. Effects of fire, browsers and gallers on New Jersey tea
(Ceanothus herbaceous) growth and reproduction. The American Midland Naturalist 141 (1),
51 (1999).

Wednesday, May 20, 2015

I'll take 'things that have nothing to do with my research' for $400


I guess I do have a couple papers with the word fire in their titles?
And to Burns and Trauma's credit, this is a nicely formatted email and the reasons to publish with them are pretty convincing :-)

Wednesday, January 27, 2010

To intervene or not to intervene: this is a real question

Should land managers actively manipulate the structure and function of ecosystems within protected areas? Is intervention appropriate to protect or maintain native biodiversity and natural processes in areas such as national parks and wilderness areas? These are the questions that stem from a new paper by Richard Hobbs and others in Frontiers in Ecology and the Environment. US national parks and wilderness areas have legislative mandates to maintain ‘naturalness’, but what does this mean in the context of dynamic ecosystems with current and future changes including invasions by nonnative organisms and climate change?

Hobbs and his colleagues challenge concepts of naturalness and propose several ‘guiding principles’ for stewards of national parks and wilderness. They suggest that more useful concepts for managing protected areas relate to ecological integrity and resilience. Concepts of ecological integrity have been adopted by Parks Canada and relate to maintaining ecosystem components. Resilience concepts focus on the ability of a system to “absorb change and persist” without undergoing a “fundamental loss of character”. While maintaining ecological integrity in the face of global changes may - by definition - require protection of species, maintaining ecological resilience tends to focus more attention on ecosystem function “over preserving specific species in situ”.

Rather than protecting an area to maintain naturalness, focusing on ecological integrity and resilience acknowledges that a diversity of approaches - from non-intervention to actively managing systems - may be required. The flexibility in this view, demands that conservation planning span gradients of land uses across landscapes. Management objectives and success need to be re-evaluated in an adaptive and experimental framework, which requires careful and robust monitoring.

At The Wilderness Society and specifically here in Montana, these very questions are being wrestled with in terms of forest restoration, fire management, and climate change. Current forest conditions have been shaped by historic logging practices and fire suppression leading to altered structure and function – including increasing the severity of fires. Through active management, including removing small diameter trees and lighting prescribed fires, managers hope to restore forests and fire intensities to conditions more closely resembling those that historically occurred. Much of the research on restoration was conducted in dry forests in the American Southwest where low-severity fires occurred across large areas. However, in the Northern Rockies, many forests were shaped by a ‘mixed severity’ fire regime, where fires crept along the forest floor in some areas and torched trees in others. In many cases, these forests have not been fundamentally altered and need only the return of fire to restore their resilience. In other cases, forests are recovering from past logging practices and may benefit from thinning to restore a fire-resilient structure.

To return to the paper at hand: what is the appropriate level of intervention to maintain ecological integrity and resilience given past forest management and future climate change? If the current forest lacks integrity (novel stand structure) and resilience under a predicted climate of warmer, drier conditions, what is the appropriate level of management? While The Wilderness Society continues to work with diverse partners to answer these questions, one thing is clear: whatever actions take place, they need to be conducted with humility in an experimental framework that includes sufficient ecological monitoring. For the ‘experiment’ to be most helpful, we should maintain adequate hands-off “controls” along with the “treatments” to allow us to gauge the effects of intervention.

Richard J Hobbs, David N Cole, Laurie Yung, Erika S Zavaleta, Gregory H Aplet, F Stuart Chapin III, Peter B Landres, David J Parsons, Nathan L Stephenson, Peter S White, David M Graber, Eric S Higgs, Constance I Millar, John M Randall, Kathy A Tonnessen, Stephen Woodley (2009) Guiding concepts for park and wilderness stewardship in an era of global environmental change. Frontiers in Ecology and the Environment e-View.
doi: 10.1890/090089
http://www.esajournals.org/doi/abs/10.1890/090089

Wednesday, May 20, 2009

Fire and the changing world

ResearchBlogging.orgThis is probably the most appropriate blog I have ever written. My family and I were evacuated two weeks ago because of the Jesusita fire in Santa Barbara, and several homes in our neighborhood were lost. Here in Santa Barbara we have experienced multiple years of extremely large fires, with this last one occurring much earlier than previous fires.

Wildfires have been a part of the Earth’s biota likely since organisms first died and dried on land. Ecosystems have been shaped by fire, numerous organisms have evolved strategies to cope with fire and human cultural development has close tied to fire. In a recent review paper in Science by David Bowman, Jennifer Balch and colleagues, they asked the question: how have fires changed and what does the future look like? Human activities are changing fire patterns and climate change may be entering a feedback with fire. Global warming has been linked to increases in extreme fire weather, making large, destructive fires more probable. However, these large fires feedback into this loop because they release compounds that have strong greenhouse effects. Further, smoke plumes inhibit cloud formation, reinforcing the dry conditions that lead to the fires in the first place.

They argue that fire needs to be incorporating into models of climate change and especially those that link ecosystem properties climate change. Fire may change the distribution of specific habitat types beyond that predicting by responses to climate change alone.

Bowman, D., Balch, J., Artaxo, P., Bond, W., Carlson, J., Cochrane, M., D'Antonio, C., DeFries, R., Doyle, J., Harrison, S., Johnston, F., Keeley, J., Krawchuk, M., Kull, C., Marston, J., Moritz, M., Prentice, I., Roos, C., Scott, A., Swetnam, T., van der Werf, G., & Pyne, S. (2009). Fire in the Earth System Science, 324 (5926), 481-484 DOI: 10.1126/science.1163886