Richard J Camp, PhD
Specialty: Quantitative ecology; abundance and demographic modeling; avian ecology and conservation
Research Interests: Status and trend estimation; Bayesian inference; hierarchical modeling; spatial and temporal modeling; population dynamics modeling
Personal Interests: Running, bicycling, beer brewing and family
Education and Certifications
Ph.D. 2020 Statistics, University of St Andrews, St Andrews, Scotland
M.S. 1995 Wildlife Biology, Colorado State University, Fort Collins, CO
B.S. 1991 Wildlife Management, University of Minnesota, Minneapolis, MN
Science and Products
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2017-2018 Palila abundance estimates and trend 2017-2018 Palila abundance estimates and trend
The palila (Loxioides bailleui) population was surveyed annually from 1998–2018 on Mauna Kea Volcano to determine abundance, population trend, and spatial distribution. In the latest surveys, the 2017 population was estimated at 1,177−1,813 birds (point estimate: 1,461) and the 2018 population was estimated at 778−1,420 (point estimate: 1,051). Only two palila were detected outside the...
Authors
Ayesha S. Genz, Kevin W. Brinck, Richard J. Camp, Paul C. Banko
Density estimation of sound-producing terrestrial animals using single automatic acoustic recorders and distance sampling Density estimation of sound-producing terrestrial animals using single automatic acoustic recorders and distance sampling
Obtaining accurate information on the distribution, density, and abundance of animals is an important first step toward their conservation. Methodological approaches using automatic acoustic recorders for species that communicate acoustically are gaining increased interest because of their advantages over traditional sampling methods. In this study, we created and evaluated a protocol to...
Authors
Esther Sebastian-Gonzalez, Richard J. Camp, Ann M. Tanimoto, Priscilla Monteiro de Oliveira, Bruna Barreto Lima, Tiago A. Marques, Patrick J. Hart
Potential impacts of projected climate change on vegetation-management strategies in Hawai‘i Volcanoes National Park Potential impacts of projected climate change on vegetation-management strategies in Hawai‘i Volcanoes National Park
Climate change is expected to alter the seasonal and annual patterns of rainfall and temperature in the Hawaiian Islands. Land managers and other responsible agencies will need to know how plant-species habitats will change over the next century in order to manage these resources effectively. This issue is a major concern for resource managers at Hawai‘i Volcanoes National Park (HAVO)...
Authors
Richard J. Camp, S. Paul Berkowitz, Kevin W. Brink, James D. Jacobi, Rhonda Loh, Jonathan Price, Lucas B. Fortini
Potential impacts of projected climate change on vegetation management in Hawai`i Volcanoes National Park Potential impacts of projected climate change on vegetation management in Hawai`i Volcanoes National Park
Climate change will likely alter the seasonal and annual patterns of rainfall and temperature in Hawai`i. This is a major concern for resource managers at Hawai`i Volcanoes National Park where intensely managed Special Ecological Areas (SEAs), focal sites for managing rare and endangered plants, may no longer provide suitable habitat under future climate. Expanding invasive species’...
Authors
Richard J. Camp, Rhonda Loh, S. Paul Berkowitz, Kevin W. Brinck, James D. Jacobi, Jonathan Price, Sierra McDaniel, Lucas B. Fortini
Population estimates of the Endangered Hawaiʻi ʻĀkepa (Loxops coccineus) in different habitats on windward Mauna Loa Population estimates of the Endangered Hawaiʻi ʻĀkepa (Loxops coccineus) in different habitats on windward Mauna Loa
Endangered Hawai‘i ʻĀkepas (Loxops coccineus) are endemic to Hawai‘i island, where they occur in five spatially distinct populations. Data concerning the status and population trends of these unique Hawaiian honeycreepers are crucial for assessing the effectiveness of recovery and management actions. In 2016, we used point‐transect distance sampling to estimate the abundance of Hawai‘i...
Authors
Seth W. Judge, Richard J. Camp, Patrick J. Hart, Scott T. Kichman
Rapid colonization of a Hawaiian restoration forest by a diverse avian community Rapid colonization of a Hawaiian restoration forest by a diverse avian community
Deforestation of tropical forests has led to widespread loss and extirpation of forest bird species around the world, including the Hawaiian Islands which have experienced a dramatic loss of forests over the last 200–800 years. Given the important role birds play in forest ecosystem functions via seed dispersal and pollination, a bird community's response to forest restoration is an...
Authors
Eben H. Paxton, Stephanie G. Yelenik, Tracy E. Borneman, Eli Rose, Richard J. Camp, Steve J. Kendall
Science and Products
Filter Total Items: 14
No Result Found
Filter Total Items: 101
2017-2018 Palila abundance estimates and trend 2017-2018 Palila abundance estimates and trend
The palila (Loxioides bailleui) population was surveyed annually from 1998–2018 on Mauna Kea Volcano to determine abundance, population trend, and spatial distribution. In the latest surveys, the 2017 population was estimated at 1,177−1,813 birds (point estimate: 1,461) and the 2018 population was estimated at 778−1,420 (point estimate: 1,051). Only two palila were detected outside the...
Authors
Ayesha S. Genz, Kevin W. Brinck, Richard J. Camp, Paul C. Banko
Density estimation of sound-producing terrestrial animals using single automatic acoustic recorders and distance sampling Density estimation of sound-producing terrestrial animals using single automatic acoustic recorders and distance sampling
Obtaining accurate information on the distribution, density, and abundance of animals is an important first step toward their conservation. Methodological approaches using automatic acoustic recorders for species that communicate acoustically are gaining increased interest because of their advantages over traditional sampling methods. In this study, we created and evaluated a protocol to...
Authors
Esther Sebastian-Gonzalez, Richard J. Camp, Ann M. Tanimoto, Priscilla Monteiro de Oliveira, Bruna Barreto Lima, Tiago A. Marques, Patrick J. Hart
Potential impacts of projected climate change on vegetation-management strategies in Hawai‘i Volcanoes National Park Potential impacts of projected climate change on vegetation-management strategies in Hawai‘i Volcanoes National Park
Climate change is expected to alter the seasonal and annual patterns of rainfall and temperature in the Hawaiian Islands. Land managers and other responsible agencies will need to know how plant-species habitats will change over the next century in order to manage these resources effectively. This issue is a major concern for resource managers at Hawai‘i Volcanoes National Park (HAVO)...
Authors
Richard J. Camp, S. Paul Berkowitz, Kevin W. Brink, James D. Jacobi, Rhonda Loh, Jonathan Price, Lucas B. Fortini
Potential impacts of projected climate change on vegetation management in Hawai`i Volcanoes National Park Potential impacts of projected climate change on vegetation management in Hawai`i Volcanoes National Park
Climate change will likely alter the seasonal and annual patterns of rainfall and temperature in Hawai`i. This is a major concern for resource managers at Hawai`i Volcanoes National Park where intensely managed Special Ecological Areas (SEAs), focal sites for managing rare and endangered plants, may no longer provide suitable habitat under future climate. Expanding invasive species’...
Authors
Richard J. Camp, Rhonda Loh, S. Paul Berkowitz, Kevin W. Brinck, James D. Jacobi, Jonathan Price, Sierra McDaniel, Lucas B. Fortini
Population estimates of the Endangered Hawaiʻi ʻĀkepa (Loxops coccineus) in different habitats on windward Mauna Loa Population estimates of the Endangered Hawaiʻi ʻĀkepa (Loxops coccineus) in different habitats on windward Mauna Loa
Endangered Hawai‘i ʻĀkepas (Loxops coccineus) are endemic to Hawai‘i island, where they occur in five spatially distinct populations. Data concerning the status and population trends of these unique Hawaiian honeycreepers are crucial for assessing the effectiveness of recovery and management actions. In 2016, we used point‐transect distance sampling to estimate the abundance of Hawai‘i...
Authors
Seth W. Judge, Richard J. Camp, Patrick J. Hart, Scott T. Kichman
Rapid colonization of a Hawaiian restoration forest by a diverse avian community Rapid colonization of a Hawaiian restoration forest by a diverse avian community
Deforestation of tropical forests has led to widespread loss and extirpation of forest bird species around the world, including the Hawaiian Islands which have experienced a dramatic loss of forests over the last 200–800 years. Given the important role birds play in forest ecosystem functions via seed dispersal and pollination, a bird community's response to forest restoration is an...
Authors
Eben H. Paxton, Stephanie G. Yelenik, Tracy E. Borneman, Eli Rose, Richard J. Camp, Steve J. Kendall