Your search keyword '"Ku'ulei Rodgers"' showing total 7 results

1. The COVID-19 pandemic as a pivot point for biological conservation

Author

Amanda E. Bates, Sangeeta Mangubhai, Celene B. Milanés, Ku’ulei Rodgers, and Valeria Vergara

Subjects

Science

Abstract

The COVID-19 lockdown reduced human mobility and led to immediate insights into how humans impact nature. Yet the strongest ecological impacts are likely to come. As we emerge from the pandemic, governments should avoid prioritizing short-term economic gains that compromise ecosystems and the services they provide humanity. Instead, the pandemic can be a pivot point for societal transformation to value longer term ecosystem and economic sustainability.

Published

2021

2. Coral taxonomy and local stressors drive bleaching prevalence across the Hawaiian Archipelago in 2019.

Author

Morgan Winston, Thomas Oliver, Courtney Couch, Mary K Donovan, Gregory P Asner, Eric Conklin, Kimberly Fuller, Bryant W Grady, Brittany Huntington, Kazuki Kageyama, Tye L Kindinger, Kelly Kozar, Lindsey Kramer, Tatiana Martinez, Amanda McCutcheon, Sheila McKenna, Ku'ulei Rodgers, Cameron Kaʻilikea Shayler, Bernardo Vargas-Angel, and Brian Zgliczynski

Subjects

Medicine, Science

Abstract

The Hawaiian Archipelago experienced a moderate bleaching event in 2019-the third major bleaching event over a 6-year period to impact the islands. In response, the Hawai'i Coral Bleaching Collaborative (HCBC) conducted 2,177 coral bleaching surveys across the Hawaiian Archipelago. The HCBC was established to coordinate bleaching monitoring efforts across the state between academic institutions, non-governmental organizations, and governmental agencies to facilitate data sharing and provide management recommendations. In 2019, the goals of this unique partnership were to: 1) assess the spatial and temporal patterns of thermal stress; 2) examine taxa-level patterns in bleaching susceptibility; 3) quantify spatial variation in bleaching extent; 4) compare 2019 patterns to those of prior bleaching events; 5) identify predictors of bleaching in 2019; and 6) explore site-specific management strategies to mitigate future bleaching events. Both acute thermal stress and bleaching in 2019 were less severe overall compared to the last major marine heatwave events in 2014 and 2015. Bleaching observed was highly site- and taxon-specific, driven by the susceptibility of remaining coral assemblages whose structure was likely shaped by previous bleaching and subsequent mortality. A suite of environmental and anthropogenic predictors was significantly correlated with observed bleaching in 2019. Acute environmental stressors, such as temperature and surface light, were equally important as previous conditions (e.g. historical thermal stress and historical bleaching) in accounting for variation in bleaching during the 2019 event. We found little evidence for acclimation by reefs to thermal stress in the main Hawaiian Islands. Moreover, our findings illustrate how detrimental effects of local anthropogenic stressors, such as tourism and urban run-off, may be exacerbated under high thermal stress. In light of the forecasted increase in severity and frequency of bleaching events, future mitigation of both local and global stressors is a high priority for the future of corals in Hawai'i.

Published

2022

3. Acclimatization Drives Differences in Reef-Building Coral Calcification Rates

Author

Kelsey Archer Barnhill, Nadia Jogee, Colleen Brown, Ashley McGowan, Ku’ulei Rodgers, Ian Bryceson, and Keisha Bahr

Subjects

acclimatization, accretion, calcification, coral reefs, dry skeletal weight, Kāne’ohe Bay, Biology (General), QH301-705.5

Abstract

Coral reefs are susceptible to climate change, anthropogenic influence, and environmental stressors. However, corals in Kāneʻohe Bay, Hawaiʻi have repeatedly shown resilience and acclimatization to anthropogenically-induced rising temperatures and increased frequencies of bleaching events. Variations in coral and algae cover at two sites—just 600 m apart—at Malaukaʻa fringing reef suggest genetic or environmental differences in coral resilience between sites. A reciprocal transplant experiment was conducted to determine if calcification (linear extension and dry skeletal weight) for dominant reef-building species, Montipora capitata and Porites compressa, varied between the two sites and whether or not parent colony or environmental factors were responsible for the differences. Despite the two sites representing distinct environmental conditions with significant differences between temperature, salinity, and aragonite saturation, M. capitata growth rates remained the same between sites and treatments. However, dry skeletal weight increases in P. compressa were significantly different between sites, but not across treatments, with linear mixed effects model results suggesting heterogeneity driven by environmental differences between sites and the parent colonies. These results provide evidence of resilience and acclimatization for M. capitata and P. compressa. Variability of resilience may be driven by local adaptations at a small, reef-level scale for P. compressa in Kāneʻohe Bay.

Published

2020

4. Coral taxonomy and local stressors drive bleaching prevalence across the Hawaiian Archipelago in 2019

Author

Morgan Winston, Thomas Oliver, Courtney Couch, Mary K. Donovan, Gregory P. Asner, Eric Conklin, Kimberly Fuller, Bryant W. Grady, Brittany Huntington, Kazuki Kageyama, Tye L. Kindinger, Kelly Kozar, Lindsey Kramer, Tatiana Martinez, Amanda McCutcheon, Sheila McKenna, Ku‘ulei Rodgers, Cameron Kaʻilikea Shayler, Bernardo Vargas-Angel, and Brian Zgliczynski

Subjects

Multidisciplinary, Coral Reefs, Prevalence, Temperature, Animals, Anthozoa, Hawaii

Abstract

The Hawaiian Archipelago experienced a moderate bleaching event in 2019—the third major bleaching event over a 6-year period to impact the islands. In response, the Hawai‘i Coral Bleaching Collaborative (HCBC) conducted 2,177 coral bleaching surveys across the Hawaiian Archipelago. The HCBC was established to coordinate bleaching monitoring efforts across the state between academic institutions, non-governmental organizations, and governmental agencies to facilitate data sharing and provide management recommendations. In 2019, the goals of this unique partnership were to: 1) assess the spatial and temporal patterns of thermal stress; 2) examine taxa-level patterns in bleaching susceptibility; 3) quantify spatial variation in bleaching extent; 4) compare 2019 patterns to those of prior bleaching events; 5) identify predictors of bleaching in 2019; and 6) explore site-specific management strategies to mitigate future bleaching events. Both acute thermal stress and bleaching in 2019 were less severe overall compared to the last major marine heatwave events in 2014 and 2015. Bleaching observed was highly site- and taxon-specific, driven by the susceptibility of remaining coral assemblages whose structure was likely shaped by previous bleaching and subsequent mortality. A suite of environmental and anthropogenic predictors was significantly correlated with observed bleaching in 2019. Acute environmental stressors, such as temperature and surface light, were equally important as previous conditions (e.g. historical thermal stress and historical bleaching) in accounting for variation in bleaching during the 2019 event. We found little evidence for acclimation by reefs to thermal stress in the main Hawaiian Islands. Moreover, our findings illustrate how detrimental effects of local anthropogenic stressors, such as tourism and urban run-off, may be exacerbated under high thermal stress. In light of the forecasted increase in severity and frequency of bleaching events, future mitigation of both local and global stressors is a high priority for the future of corals in Hawai‘i.

Published

2021

5. The COVID-19 pandemic as a pivot point for biological conservation

Author

Celene B. Milanés, Amanda E. Bates, Sangeeta Mangubhai, Ku'ulei Rodgers, and Valeria Vergara

Subjects

Value (ethics), Restoration ecology, Conservation of Natural Resources, short-term economic gains, Coronavirus disease 2019 (COVID-19), Natural resource economics, Compromise, media_common.quotation_subject, Science, General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology, Humanities, Pandemic, Economics, Humans, Human Activities, Pandemics, Ecosystem, media_common, Multidisciplinary, Emerging challenges, Conservation biology, Comment, COVID-19, General Chemistry, Pivot point, COVID-19 lockdown, Social transformation

Abstract

The COVID-19 lockdown reduced human mobility and led to immediate insights into how humans impact nature. Yet the strongest ecological impacts are likely to come. As we emerge from the pandemic, governments should avoid prioritizing short-term economic gains that compromise ecosystems and the services they provide humanity. Instead, the pandemic can be a pivot point for societal transformation to value longer term ecosystem and economic sustainability.

Published

2021

6. Development of Benthic Sampling Methods for the Coral Reef Assessment and Monitoring Program (CRAMP) in Hawai'i

Author

Evelyn F. Cox, Jonathan Hultquist, Brian N. Tissot, Steve L. Coles, S. Ku'ulei Rodgers, William R. Smith, Eric K. Brown, and Paul L. Jokiel

Subjects

Multidisciplinary, Cost effectiveness, Benthic zone, Ecology, Sampling (statistics), Environmental science, Physical geography, Quadrat, Transect, Monitoring program, Statistical power, Stratified sampling

Abstract

The Coral Reef Assessment and Monitoring Program (CRAMP) of Hawai'i was established in 1998 to monitor long-term changes in coral reef benthic communities around the state. Development of the methodology in- volved analysis of results from previous monitoring programs in Hawai'i to de- termine precision and statistical power of various methods to detect change. Additional field trials were conducted to examine factors such as repeatability, appropriate transect length, number of transects, number of samples per tran- sect, cover estimation techniques, observer variation, as well as time and fi- nancial constraints. Benthic monitoring methods used previously in Hawai'i generally showed low statistical power for detecting change due to low precision and small sample size. Field trials indicated that repeatability of conventional techniques using transects or quadrats had high variation and consequently low statistical power unless efforts were made to reposition the sampling units with greater precision. Longer transects (e.g., 25 and 50 m) had higher variability than shorter transects (e.g., 10 m), suggesting that smaller sampling units were more appropriate for the habitats sampled. Variability among observers analyz- ing the same data was low in comparison with other sources of error. Visual estimation techniques showed low initial cost but were inefficient per survey. Digital video required the highest initial monetary investment but yielded the greatest quantity of data per survey with sufficient quality. The cost effectiveness of the digital video method compared with other techniques increased with more surveys and in more remote situations where logistical expenses were in- curred. A within-habitat stratified random sampling design was implemented for the CRAMP design. Fixed transects were chosen to reduce temporal variance and allowed efficient resurveying under the high-wave-energy field conditions typically found in Hawai'i. The method was designed to detect an absolute change of 10% in benthic cover with high statistical power using 50 points per frame, 20-30 frames per transect, and 8-10 transects per depth. Fixed photo- quadrats with high precision and high resolution were included in the design to allow detailed monitoring of coral/algal growth, recruitment, and mortality.

Published

2004

7. Hawai'i Coral Reef Assessment and Monitoring Program: Spatial Patterns and Temporal Dynamics in Reef Coral Communities

Author

S. Ku'ulei Rodgers, Eric K. Brown, Alan M. Friedlander, William R. Smith, and Paul L. Jokiel

Subjects

geography, Rugosity, education.field_of_study, Multidisciplinary, geography.geographical_feature_category, Ecology, Coral, fungi, Population, technology, industry, and agriculture, Coral reef, biochemical phenomena, metabolism, and nutrition, Monitoring program, Spatial ecology, population characteristics, Species richness, education, Reef, geographic locations

Abstract

The Hawai'i Coral Reef Assessment and Monitoring Program (CRAMP) was established to describe the spatial and temporal variation in Ha- waiian coral reef communities in relation to natural and anthropogenic factors. Sixty permanent reef sites stratified by depth have been monitored in the main Hawaiian Islands since 1999 and formed the basis for analysis of temporal change over the initial 3-yr period. A rapid assessment technique (RAT) was developed to supplement the monitoring site data and provide much wider geographic coverage, but with a focus on spatial patterns rather than temporal change. Analysis of these data supports and amplifies the results of many other ecological studies on Hawaiian reefs. The data revealed that the major natural factors influencing reef coral community structure in Hawai'i include depth, wave height, wave direction, island age, rugosity, and sediment grain size. Pos- sible anthropogenic influences and trends also appeared in the data. Areas of decline appear to be concentrated on islands with high human population or in areas suffering from extensive sedimentation. Reefs receiving high terrigenous runoff contain sediments with high organic content. Spatial analysis showed an inverse relationship between percentage organics and coral species richness and diversity. Reef coral communities can undergo natural oscillations over a period of years, so continuation of the CRAMP longer-term monitoring is required to establish long-term (decadal) environmental trends.

Published

2004