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18 results on '"Crane, Nicole L."'

1. Clipperton Atoll as a model to study small marine populations: Endemism and the genomic consequences of small population size.

Author

Crane, Nicole L, Tariel, Juliette, Caselle, Jennifer E, Friedlander, Alan M, Robertson, D Ross, and Bernardi, Giacomo

Subjects
Animals, Fishes, Genomics, Population Density, Gene Flow, Genetic Variation, Ecological and Environmental Phenomena, MD Multidisciplinary, General Science & Technology
Abstract

Estimating population sizes and genetic diversity are key factors to understand and predict population dynamics. Marine species have been a difficult challenge in that respect, due to the difficulty in assessing population sizes and the open nature of such populations. Small, isolated islands with endemic species offer an opportunity to groundtruth population size estimates with empirical data and investigate the genetic consequences of such small populations. Here we focus on two endemic species of reef fish, the Clipperton damselfish, Stegastes baldwini, and the Clipperton angelfish, Holacanthus limbaughi, on Clipperton Atoll, tropical eastern Pacific. Visual surveys, performed over almost two decades and four expeditions, and genetic surveys based on genomic RAD sequences, allowed us to estimate kinship and genetic diversity, as well as to compare population size estimates based on visual surveys with effective population sizes based on genetics. We found that genetic and visual estimates of population numbers were remarkably similar. S. baldwini and H. limbaughi had population sizes of approximately 800,000 and 60,000, respectively. Relatively small population sizes resulted in low genetic diversity and the presence of apparent kinship. This study emphasizes the importance of small isolated islands as models to study population dynamics of marine organisms.

Published
2018

3. Atoll-scale patterns in coral reef community structure: Human signatures on Ulithi Atoll, Micronesia.

Author

Crane, Nicole L, Nelson, Peter, Abelson, Avigdor, Precoda, Kristin, Rulmal, John, Bernardi, Giacomo, and Paddack, Michelle

Subjects
Animals, Fishes, Humans, Conservation of Natural Resources, Biodiversity, Biomass, Fisheries, Micronesia, Coral Reefs, MD Multidisciplinary, General Science & Technology
Abstract

The dynamic relationship between reefs and the people who utilize them at a subsistence level is poorly understood. This paper characterizes atoll-scale patterns in shallow coral reef habitat and fish community structure, and correlates these with environmental characteristics and anthropogenic factors, critical to conservation efforts for the reefs and the people who depend on them. Hierarchical clustering analyses by site for benthic composition and fish community resulted in the same 3 major clusters: cluster 1-oceanic (close proximity to deep water) and uninhabited (low human impact); cluster 2-oceanic and inhabited (high human impact); and cluster 3-lagoonal (facing the inside of the lagoon) and inhabited (highest human impact). Distance from village, reef exposure to deep water and human population size had the greatest effect in predicting the fish and benthic community structure. Our study demonstrates a strong association between benthic and fish community structure and human use across the Ulithi Atoll (Yap State, Federated States of Micronesia) and confirms a pattern observed by local people that an 'opportunistic' scleractinian coral (Montipora sp.) is associated with more highly impacted reefs. Our findings suggest that small human populations (subsistence fishing) can nevertheless have considerable ecological impacts on reefs due, in part, to changes in fishing practices rather than overfishing per se, as well as larger global trends. Findings from this work can assist in building local capacity to manage reef resources across an atoll-wide scale, and illustrates the importance of anthropogenic impact even in small communities.

Published
2017

4. Ethnobiological methods enhance our capacity to document potential climate sentinels: a loggerhead sea turtle (Caretta caretta) case study.

Author

María Early-Capistrán, Michelle, Crane, Nicole L., Crowder, Larry B., Garibay-Melo, Gerardo, Seminoff, Jeffrey A., and Johnston, David

Subjects
LOGGERHEAD turtle, SCIENTIFIC knowledge, SCIENTIFIC method, ENDANGERED species, MIGRATORY animals, ECOSYSTEMS
Abstract

The accelerated pace of climate-driven shifts is surpassing the temporal scope of conventional field research, potentially leading to a disconnect between ecosystem changes and scientific data collection. Climate change is producing rapid transformations within dynamic marine ecosystems, with a pronounced effect on high trophic-level species such as loggerhead sea turtles (Caretta caretta). We present a new model for data collection using ethnobiological methods, emphasizing how local community members can contribute to expanding scientific knowledge via context-informed observations, to document species occurrences beyond their anticipated habitats during climatic anomalies. In rapidly changing conditions, local expert knowledge can complement conventional scientific methods, providing high-quality data with extensive coverage--especially for elusive species--and yielding insight into potential emerging phenomena that may otherwise go unnoticed. Conventional methods for predicting distribution shifts in rare species are vulnerable to spatial biases, favoring predictions based on the most probable habitats. We present the case study of a live sea turtle sighting by a local expert in Monterey Bay, California, USA, identified post hoc as a loggerhead, to illustrate methods which can be transferred and applied to other rare and highly migratory marine species such as marine mammals, sharks, and seabirds. This emerging framework incorporates diverse knowledge sources and methodologies in monitoring climate-driven ecological shifts, enriching conservation strategies, enhancing our understanding of complex ecosystems, and contributing to robust evidentiary standards for rare species observations. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Macroalgae exhibit diverse responses to human disturbances on coral reefs

Author

Cannon, Sara E., primary, Donner, Simon D., additional, Liu, Angela, additional, González Espinosa, Pedro C., additional, Baird, Andrew H., additional, Baum, Julia K., additional, Bauman, Andrew G., additional, Beger, Maria, additional, Benkwitt, Cassandra E., additional, Birt, Matthew J., additional, Chancerelle, Yannick, additional, Cinner, Joshua E., additional, Crane, Nicole L., additional, Denis, Vianney, additional, Depczynski, Martial, additional, Fadli, Nur, additional, Fenner, Douglas, additional, Fulton, Christopher J., additional, Golbuu, Yimnang, additional, Graham, Nicholas A. J., additional, Guest, James, additional, Harrison, Hugo B., additional, Hobbs, Jean‐Paul A., additional, Hoey, Andrew S., additional, Holmes, Thomas H., additional, Houk, Peter, additional, Januchowski‐Hartley, Fraser A., additional, Jompa, Jamaluddin, additional, Kuo, Chao‐Yang, additional, Limmon, Gino Valentino, additional, Lin, Yuting V., additional, McClanahan, Timothy R., additional, Muenzel, Dominic, additional, Paddack, Michelle J., additional, Planes, Serge, additional, Pratchett, Morgan S., additional, Radford, Ben, additional, Reimer, James Davis, additional, Richards, Zoe T., additional, Ross, Claire L., additional, Rulmal, John, additional, Sommer, Brigitte, additional, Williams, Gareth J., additional, and Wilson, Shaun K., additional

Published
2023
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8. Macroalgae exhibit diverse responses to human disturbances on coral reefs

Author

Cannon, Sara E., Donner, Simon D., Liu, Angela, González Espinosa, Pedro C., Baird, Andrew H., Baum, Julia K., Bauman, Andrew G., Beger, Maria, Benkwitt, Cassandra E., Birt, Matthew J., Chancerelle, Yannick, Cinner, Joshua E., Crane, Nicole L., Denis, Vianney, Depczynski, Martial, Fadli, Nur, Fenner, Douglas, Fulton, Christopher J., Golbuu, Yimnang, Graham, Nicholas A. J., Guest, James, Harrison, Hugo B., Hobbs, Jean‐Paul A., Hoey, Andrew S., Holmes, Thomas H., Houk, Peter, Januchowski‐Hartley, Fraser A., Jompa, Jamaluddin, Kuo, Chao‐Yang, Limmon, Gino Valentino, Lin, Yuting V., McClanahan, Timothy R., Muenzel, Dominic, Paddack, Michelle J., Planes, Serge, Pratchett, Morgan S., Radford, Ben, Reimer, James Davis, Richards, Zoe T., Ross, Claire L., Rulmal, John, Sommer, Brigitte, Williams, Gareth J., Wilson, Shaun K., Cannon, Sara E., Donner, Simon D., Liu, Angela, González Espinosa, Pedro C., Baird, Andrew H., Baum, Julia K., Bauman, Andrew G., Beger, Maria, Benkwitt, Cassandra E., Birt, Matthew J., Chancerelle, Yannick, Cinner, Joshua E., Crane, Nicole L., Denis, Vianney, Depczynski, Martial, Fadli, Nur, Fenner, Douglas, Fulton, Christopher J., Golbuu, Yimnang, Graham, Nicholas A. J., Guest, James, Harrison, Hugo B., Hobbs, Jean‐Paul A., Hoey, Andrew S., Holmes, Thomas H., Houk, Peter, Januchowski‐Hartley, Fraser A., Jompa, Jamaluddin, Kuo, Chao‐Yang, Limmon, Gino Valentino, Lin, Yuting V., McClanahan, Timothy R., Muenzel, Dominic, Paddack, Michelle J., Planes, Serge, Pratchett, Morgan S., Radford, Ben, Reimer, James Davis, Richards, Zoe T., Ross, Claire L., Rulmal, John, Sommer, Brigitte, Williams, Gareth J., and Wilson, Shaun K.

Abstract

Scientists and managers rely on indicator taxa such as coral and macroalgal cover to evaluate the effects of human disturbance on coral reefs, often assuming a universally positive relationship between local human disturbance and macroalgae. Despite evidence that macroalgae respond to local stressors in diverse ways, there have been few efforts to evaluate relationships between specific macroalgae taxa and local human‐driven disturbance. Using genus‐level monitoring data from 1205 sites in the Indian and Pacific Oceans, we assess whether macroalgae percent cover correlates with local human disturbance while accounting for factors that could obscure or confound relationships. Assessing macroalgae at genus level revealed that no genera were positively correlated with all human disturbance metrics. Instead, we found relationships between the division or genera of algae and specific human disturbances that were not detectable when pooling taxa into a single functional category, which is common to many analyses. The convention to use percent cover of macroalgae as an indication of local human disturbance therefore likely obscures signatures of local anthropogenic threats to reefs. Our limited understanding of relationships between human disturbance, macroalgae taxa, and their responses to human disturbances impedes the ability to diagnose and respond appropriately to these threats.

Published
2023

14. Corallimorph and Montipora Reefs in Ulithi Atoll, Micronesia: documenting unusual reefs.

Author

CRANE, NICOLE L., PADDACK, MICHELLE J., NELSON, PETER A., ABELSON, AVIGDOR, RULMAL JR., JOHN, and BERNARDI, GIACOMO

Subjects
*CORAL reef ecology, *CORALLIMORPHIDAE, *MONTIPORA, *BOAT ramps
Abstract

Here we report the presence of two unusual reef types at Ulithi Atoll, Yap State, Federated States of Micronesia: 1. a corallimorph-dominated reef off the island of Mogmog is found within an otherwise coral-dominated area, and 2. a general spread of Montipora reefs that were found to dominate the reef landscapes near inhabited islands. The Montipora reefs primarily occur near villages and in disturbed areas such as near boat-launch ramps. Indigenous people in the area say these reefs are fairly recent (ca. late 1960s) and that Montipora has been spreading rapidly. [ABSTRACT FROM AUTHOR]

Published
2016
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17. Sound production of gray whales, Eschrichtiusrobustus, along their migration route: A new approach to signal analysis

Author

Crane, Nicole L. and Lashkari, Khosrow

Abstract

Sound production of gray whales was investigated to determine their acoustic repertoire along the migration route, and to compare sound production in deep and shallow water. Recording was conducted off Monterey Bay and Carmel Bay, California, during the annual migrations of 1988 through 1991. Sounds were analyzed through digital signal processing. Six acoustic variables were measured. Three variables were used for final classification, chosen for their clarity in the presence of high levels of ambient noise (poor signal‐to‐noise ratio). These variables were 3‐dB bandwidth, center frequency, and harmonic/sideband interval. Q ratio was used as an indicator of how broadband or narrow band a signal was relative to other gray whale signals. Four categories of signals were determined: M1, M3, M4, and M5. All signal types were concentrated below 1500 Hz. M3 signals had the lowest center frequency, averaging below 100 Hz. M1 were pulses and bonging signals, M3 were low‐frequency moans, M4 were grunts, and M5 were subsurface exhalations. The rate of sound production was lower when whales traveled over deep water than over shallow water. Rate of sound production was less along the migration route compared to the lagoons. M3 signals were the most common, comprising 46.6% of the repertoire along the migration route, with M1 signals comprising 37.4%. © 1996 Acoustical Society of America.

Published
1996
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18. Ticket to Hawaii!

Author

CRANE, NICOLE L.

Subjects
HAWAII description & travel, TRAVEL
Abstract

The article offers travel tips for visitors to Hawaii, along with information on transportation options, tourist attractions and restaurants.

Published
2010

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