Jon Keeley
Dr. Keeley is currently a research scientist with the U.S. Geological Survey, stationed at Sequoia National Park.
Prior to this appointment, he served one year in Washington, D.C. as director of the ecology program for the National Science Foundation. He was professor of biology at Occidental College for 20 years and spent a sabbatical year at the University of Cape Town, South Africa. He has more than 350 publications in national and international scientific journals and books. His research has focused on ecological impacts of wildfires as well as other aspects of plant ecology, including rare plants, rare habitats such as vernal pools, and plant physiology. In 1985 he was awarded a Guggenheim Fellowship and is a Fellow of the Ecological Society of America and an Honorary Lifetime Member of the California Botanical Society. He has served on the Los Angeles County Department of Regional Planning Environmental Review Board, and the State of California Natural Communities Conservation Program (NCCP) Board of Scientific Advisors.
Professional Experience
U.S. Geological Survey, Western Ecological Research Center, Research Scientist
(ST Scientist), 2015–present
(GS series 0408), 1998–present
University of California, Los Angeles, Adjunct Full Professor, 2001-present
Rancho Santa Ana Botanic Garden, Research Associate, 1997–present
National Science Foundation, Program Director 1997–1998
Occidental College,
Professor 1988–1998
Department Chair 1982–1988
Assist/Assoc Professor 1977–1988
University of Cape Town, Visiting Professor 1990
Education and Certifications
Ph.D. (Botany) University of Georgia, Athens, 1977
M.S. (Biology) San Diego State University, 1973
B.S. (Biology) San Diego State University, 1971
Honors and Awards
Fellow, Ecological Society of America, 2014
Distinguished MEDECOS Fellow, 2011
USGS Performance Award, 2011
USGS Star Award, 2008
Honorary Lifetime Member, California Botanical Society, 1998
Fellow, Southern California Academy of Sciences, l994
Guggenheim Fellow, l985–l986
Sterling Award for Outstanding Teaching, l985
Science and Products
Fire as an evolutionary pressure shaping plant traits
Effects of eradication and restoration treatments on Italian thistle (Carduus pycnocephalus)
Fire in California
Fire in southern Australia
Fire in Chile
Fire-related plant traits
Fire and the fire regime framework
Fire and the origins of Mediterranean-type vegetation
Fire-adaptive trait evolution
Fire management of Mediterranean landscapes
The application of prototype point processes for the summary and description of California wildfires
Fire in the Mediterranean Basin
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Fire as an evolutionary pressure shaping plant traits
Traits, such as resprouting, serotiny and germination by heat and smoke, are adaptive in fire-prone environments. However, plants are not adapted to fire per se but to fire regimes. Species can be threatened when humans alter the regime, often by increasing or decreasing fire frequency. Fire-adaptive traits are potentially the result of different evolutionary pathways. Distinguishing between traitAuthorsJon E. Keeley, Juli G. Pausas, Philip W. Rundel, William J. Bond, Ross A. BradstockEffects of eradication and restoration treatments on Italian thistle (Carduus pycnocephalus)
Low elevation grasslands in California long have been dominated by Mediterranean grasses, but many areas still have large native forb populations. Alien forbs invade these grasslands, displacing both native and other alien species. Italian thistle is a noxious alien herb that has recently invaded these grasslands, including ungrazed blue oak (Quercus douglassii) and interior live oak (Quercus wislAuthorsThomas McGinnis, Jon KeeleyFire in California
On the west coast of North America lies the state of California, USA (Fig. 5.1), the bulk of which is dominated by a mediterranean-type climate (MTC). Elevations range from sea level to over 4000 m. Mountain ranges are largely oriented north to south with a major valley between the coastal ranges and the interior Sierra Nevada range. In the rain shadow east of the interior mountain ranges the climAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire in southern Australia
The mediterranean-type climate (MTC) in Australia spans from the southwestern part of Western Australia to include much of South Australia and western Victoria (Fig. 8.1), which covers a longitudinal distance second only to the Mediterranean Basin MTC region. As in other MTC regions, the highly fire-prone evergreen sclerophyllous shrub and tree mediterranean-type vegetation (MTV) extends much furtAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire in Chile
The mediterranean-type climate (MTC) in Chile (Fig. 6.1) is distributed from La Serena (30° S; Región IV, see Appendix 6.1) in the north to Concepción (37° S; Región X) in the south. It is constrained to the west side of the Andean mountain range, although as the height of this range decreases in the south, a MTC is observed at least as far eastward as Bariloche, Argentina. Although a pattern of wAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire-related plant traits
As illustrated in Fig. 2.1 there are four environmental parameters that are necessary to determine the distribution of fire-prone ecosystems. However, they are insufficient to predict ecosystem responses to fire without a detailed understanding of the fire regime (see Fig. 2.7). Different fire regimes have very different potentials for recovery and place very different premiums on specific plant tAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire and the fire regime framework
A global view of potential vs. actual vegetation distributions points to fire as a major driver of biome distribution and determinant of community structure (Bond et al. 2005). In ecological terms, fire acts much like an herbivore, consuming biomass and competing with biotic consumers for resources, and in this sense is an important part of trophic ecology (Bond & Keeley 2005). As in other competiAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire and the origins of Mediterranean-type vegetation
The mediterranean-type climate (MTC) is widely agreed to have been in place in all five MTC regions since at least the late Pliocene (see Fig. 9.1), ~2 Ma, with much of the contemporary mediterranean-type vegetation (MTV) present and contributing to a highly fire-prone environment. There is far less agreement on: (1) the timing of the origin of the MTC, (2) the timing of and factors responsible foAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire-adaptive trait evolution
Until relatively recently the importance of fire and the origin of fire-adaptive traits have received minimal attention from paleoecologists, and appreciation of this importance has varied across the different mediterranean-type climate (MTC) ecosystems. For example, Axelrod (1973) and Raven & Axelrod (1978) wrote extensive treatises on the origins of the California flora, and yet gave little or nAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelFire management of Mediterranean landscapes
The hazardous mediterranean climate, highly flammable vegetation, and rugged terrain, all important elements of fire behavior, become problems only in the presence of people. People recreate and build homes in the mediterranean wildlands because of the delightful climate and will continue to do so as long as space is available. People start most fires, and their mere presence tends to warp fire suAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. RundelThe application of prototype point processes for the summary and description of California wildfires
A method for summarizing repeated realizations of a space‐time marked point process, known as prototyping, is discussed and applied to catalogues of wildfires in California. Prototype summaries are constructed for varying time intervals using California wildfire data from 1990 to 2006. Previous work on prototypes for temporal and space‐time point processes is extended here to include methods for cAuthorsK. Nichols, F.P. Schoenberg, Jon E. Keeley, A. Bray, D. DiezFire in the Mediterranean Basin
The Mediterranean Basin is a meeting point of three continents, Europe, Asia and Africa, and this is responsible for the great diversity of plants, animals and cultures that formed the cradle of Western civilization. It is considered one of the biodiversity hotspots (Myers et al. 2000) because of its high species richness and high proportion of endemisms (Thompson 2005). The total area showing a MAuthorsJon E. Keeley, William J. Bond, Ross A. Bradstock, Juli G. Pausas, Philip W. Rundel - Software
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