Your search keyword '"Van Houtan, Kyle"' showing total 34 results

1. Sequential scute growth layers reveal developmental histories of hawksbill sea turtles.

Author

Van Houtan, Kyle S., Jones, T. Todd, Hagemann, Molly E., Schumacher, Joel, Phocas, George, Gaos, Alexander R., and Seminoff, Jeffrey A.

Subjects

*HAWKSBILL turtle, *STABLE isotope analysis, *MIGRATORY animals, *MARITIME history, *STABLE isotopes

Abstract

Understanding the basic life history patterns of highly migratory species is important for effective management. For sea turtles, evidence of developmental biogeography and discrete life stage residency provides key information for understanding resource use and population threats and defining conservation priorities. Resolving gaps in these knowledge areas is not straightforward, however. Inaccessible habitats, low survivorship, late maturity ages, and technology limitations all complicate monitoring individuals continuously throughout their life span. Here, we expand on previous studies and document a near-complete tissue record in the ultimate posterior marginal scutes of hawksbill sea turtle (Eretmochelys imbricata) carapace. Stable isotope analysis (SIA) of ventral scute surfaces reveals differences between three geographically isolated populations in the Pacific and Atlantic basins. Additionally, sequential sampling and SIA along growth line contours of sectioned scutes reveals developmental movements. Perhaps surprisingly, no clear or general patterns emerge. Bivariate isotope data (stable carbon, δ13C, and nitrogen δ15N) indicate that only one of six Central Pacific hawksbills showed a distinct ontogenetic shift. And while all three Western Pacific individuals showed evidence of ontogenetic shifts, these individuals had three unique patterns. We summarize regional stable isotope values for common hawksbill foraging items, discuss drivers of regional nitrogen structure, and make recommendations for future study. [ABSTRACT FROM AUTHOR]

Published

2023

2. Climatic drought and trophic disruption in an endemic subalpine Hawaiian forest bird.

Author

Van Houtan, Kyle S., Gagné, Tyler O., Banko, Paul, Hagemann, Molly E., Peck, Robert W., and Yarnes, Christopher T.

Subjects

*FOREST birds, *FOOD chains, *SURFACE temperature, *STABLE isotopes, *INTRODUCED species, *DROUGHT management, *BIRD populations, *FOREST dynamics

Abstract

Overexploitation, habitat conversion, and introduced species have caused unprecedented extinctions and heavily degraded native bird populations in island ecosystems. In the Hawaiian Islands, stemming these losses has proven difficult as the highly specialized avifauna are often impacted – among other things – by poorly understood trophic disruptions as well as persistent climatic shifts. Here we investigate these dynamics by examining the trophic positions of 7 different taxa of producers and consumers across the last century in the subalpine māmane (Sophora chrysophylla) forest ecosystem on the island of Hawaiʻi. From museum collections and contemporary sampling, we analyzed the stable nitrogen (δ15N) values of producers and consumers to identify trophic and source amino acids and derive trophic enrichment constants specific to this food web. This enables us to reconstruct the diet of the palila (Loxioides bailleui), a critically endangered finch whose population recently declined 90 %. Our results show that from 1890 to 2006, the palila trophic position declined from 2.6 to 2.2, with cascading implications for its diet. Bayesian mixing model reconstructions indicate that palila trophic position changes likely arose from a 76 % decline (69.3 % to 16.6 % of diet) in the consumption of native moth caterpillars, and a 172 % increase (30.7 % to 83.4 %) in native plants. From the available ecosystem variables, exploratory Bayesian multiple regressions selected surface temperature changes, and the interactions of surface temperatures with drought and caterpillar parasitism as the primary drivers of these trophic changes. Despite the predicted increases of warming and drought, management interventions may build resiliency in this unique island ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

3. The geographic disparity of historical greenhouse emissions and projected climate change.

Author

Van Houtan, Kyle S., Tanaka, Kisei R., Gagné, Tyler O., and Becker, Sarah L.

Subjects

*EMISSION inventories, *MARINE biodiversity, *CORAL bleaching, *CLIMATE change, UNITED Nations Framework Convention on Climate Change (1992)

Abstract

The article presents the geographic disparity of historical greenhouse emissions and projected climate change. Topics include the climate change communication is that the causes and impacts of global warming are unrelated at local spatial scales, the high-resolution datasets of historical anthropogenic greenhouse emissions and an ensemble of 21st century surface temperature projections, and the climate change projections we analyzed 99% of the earth's surface area has a positive index value.

Published

2021

4. North Pacific warming shifts the juvenile range of a marine apex predator.

Author

Tanaka, Kisei R., Van Houtan, Kyle S., Mailander, Eric, Dias, Beatriz S., Galginaitis, Carol, O'Sullivan, John, Lowe, Christopher G., and Jorgensen, Salvador J.

Subjects

*HEAT waves (Meteorology), *WHITE shark, *CARCHARODON, *MARINE animals, *CLIMATE change

Abstract

During the 2014–2016 North Pacific marine heatwave, unprecedented sightings of juvenile white sharks (Carcharodon carcharias) emerged in central California. These records contradicted the species established life history, where juveniles remain in warmer waters in the southern California Current. This spatial shift is significant as it creates potential conflicts with commercial fisheries, protected species conservation, and public safety concerns. Here, we integrate community science, photogrammetry, biologging, and mesoscale climate data to describe and explain this phenomenon. We find a dramatic increase in white sharks from 2014 to 2019 in Monterey Bay that was overwhelmingly comprised of juvenile sharks < 2.5 m in total body length. Next, we derived thermal preferences from 22 million tag measurements of 14 juvenile sharks and use this to map the cold limit of their range. Consistent with historical records, the position of this cold edge averaged 34° N from 1982 to 2013 but jumped to 38.5° during the 2014–2016 marine heat wave. In addition to a poleward shift, thermally suitable habitat for juvenile sharks declined 223.2 km2 year−1 from 1982 to 2019 and was lowest in 2015 at the peak of the heatwave. In addition to advancing the adaptive management of this apex marine predator, we discuss this opportunity to engage public on climate change through marine megafauna. [ABSTRACT FROM AUTHOR]

Published

2021

5. How survival curves affect populations’ vulnerability to climate change.

Author

Halley, John M., Van Houtan, Kyle S., and Mantua, Nate

Subjects

*EFFECT of human beings on climate change, *GLOBAL warming, *POPULATION dynamics, *POPULATION biology, *INVESTMENTS

Abstract

Human activities are exposing organisms not only to direct threats (e.g. habitat loss) but also to indirect environmental pressures such as climate change, which involves not just directional global warming but also increasing climatic variability. Such changes will impact whole communities of organisms and the possible effects on population dynamics have raised concerns about increased extinction rates. Conservation-minded approaches to extinction risk vary from range shifts predicted by climate envelope models with no population dynamics to population viability analyses that ignore environmental variability altogether. Our modelling study shows that these extremes are modelling responses to a spectrum of environmental sensitivity that organisms may exhibit. We show how the survival curve plays a major role in how environmental variability leads to population fluctuations. While it is often supposed that low-fecundity organisms (those with high parental investment) will be the most vulnerable to climate change, it is those with high fecundity (low parental investment) that are likely to be more sensitive to such changes. We also find that abundance variations in high fecundity populations is driven primarily by fluctuations in the survival of early life stages, the more so if those environmental changes are autocorrelated in time. We show which types of conservation actions are most appropriate for a number of real populations. While the most effective conservation actions for organisms of low fecundity is to avoid killing them, for populations with high fecundity (and low parental investment), our study suggests conservation should focus more on protecting early life stages from hostile environments. [ABSTRACT FROM AUTHOR]

Published

2018

6. Global and regional priorities for marine biodiversity protection.

Author

Jenkins, Clinton N. and Van Houtan, Kyle S.

Subjects

*MARINE biodiversity conservation, *MARINE parks & reserves, *MARINE species diversity, *BIOGEOGRAPHY

Abstract

The ocean holds much of the planet's biodiversity, yet < 4% of the ocean is within protected areas. On land, the protecting of areas with low biodiversity and under little threat, rather than biodiversity hotspots, is a well-known problem. Prudence suggests that we not repeat this pattern in the ocean. Here we assessed patterns of global marine biodiversity by evaluating the protections of 4352 species for which geographic ranges are known, and mapping priority areas using an index that considers species vulnerability, coverage by marine protected areas (MPAs), and human impacts. Species have, on average, only 3.6% of their range protected. Moreover, species of conservation concern (threatened, small-ranged, and data deficient) have less protection than species on average. Only 5 nations currently protect 10% or more of their exclusive economic zone (EEZ) as strict Marine Reserves (IUCN category I–IV) in accord with the 2020 Aichi Biodiversity Targets. One nation by itself, Australia, accounts for 65% of the global area of Marine Reserves. The Coral Triangle is the clear and dominant global priority for biodiversity, but we identify additional global and regional priorities in each ocean basin. As an example, we show that for the United States, the Marianas and Samoan Islands are the top marine conservation priorities. Despite recent advances, the world has yet to protect most of the area and species that need it. Where to protect those species, however, is increasingly clear. [ABSTRACT FROM AUTHOR]

Published

2016

7. Juvenile recruitment in loggerhead sea turtles linked to decadal changes in ocean circulation.

Author

Ascani, François, Van Houtan, Kyle S., Di Lorenzo, Emanuele, Polovina, Jeffrey J., and Jones, T. Todd

Subjects

*GENERAL circulation model, *OCEANOGRAPHY, *LOGGERHEAD turtle, *OCEAN circulation, *WILDLIFE conservation

Abstract

Given the threats of climate change, understanding the relationship of climate with long-term population dynamics is critical for wildlife conservation. Previous studies have linked decadal climate oscillations to indices of juvenile recruitment in loggerhead sea turtles ( Caretta caretta), but without a clear understanding of mechanisms. Here, we explore the underlying processes that may explain these relationships. Using the eddy-resolving Ocean General Circulation Model for the Earth Simulator, we generate hatch-year trajectories for loggerhead turtles emanating from Japan over six decades (1950-2010). We find that the proximity of the high-velocity Kuroshio Current to the primary nesting areas in southern Japan is remarkably stable and that hatchling dispersal to oceanic habitats itself does not vary on decadal timescales. However, we observe a shift in latitudes of trajectories, consistent with the Pacific Decadal Oscillation ( PDO). In a negative PDO phase, the Kuroshio Extension Current ( KEC) is strong and acts as a physical barrier to the northward transport of neonates. As a result, hatch-year trajectories remain mostly below 35°N in the warm, unproductive region south of the Transition Zone Chlorophyll Front ( TZCF). During a positive PDO phase, however, the KEC weakens facilitating the neonates to swim north of the TZCF into cooler and more productive waters. As a result, annual cohorts from negative PDO years may face a lack of resources, whereas cohorts from positive PDO years may find sufficient resources during their pivotal first year. These model outputs indicate that the ocean circulation dynamics, combined with navigational swimming behavior, may be a key factor in the observed decadal variability of sea turtle populations. [ABSTRACT FROM AUTHOR]

Published

2016

8. The developmental biogeography of hawksbill sea turtles in the North Pacific.

Author

Van Houtan, Kyle S., Francke, Devon L., Alessi, Sarah, Jones, T. Todd, Martin, Summer L., Kurpita, Lauren, King, Cheryl S., and Baird, Robin W.

Subjects

*BIOGEOGRAPHY, *HAWKSBILL turtle, *HABITATS, *ENDANGERED species, *WILDLIFE conservation

Abstract

High seas oceanic ecosystems are considered important habitat for juvenile sea turtles, yet much remains cryptic about this important life-history period. Recent progress on climate and fishery impacts in these so-called lost years is promising, but the developmental biogeography of hawksbill sea turtles ( Eretmochelys imbricata) has not been widely described in the Pacific Ocean. This knowledge gap limits the effectiveness of conservation management for this globally endangered species. We address this with 30 years of stranding observations, 20 years of bycatch records, and recent simulations of natal dispersal trajectories in the Hawaiian Archipelago. We synthesize the analyses of these data in the context of direct empirical observations, anecdotal sightings, and historical commercial harvests from the insular Pacific. We find hawksbills 0-4 years of age, measuring 8-34 cm straight carapace length, are found predominantly in the coastal pelagic waters of Hawaii. Unlike other species, we find no direct evidence of a prolonged presence in oceanic habitats, yet satellite tracks of passive drifters (simulating natal dispersal) and our small sample sizes suggest that an oceanic phase for hawksbills cannot be dismissed. Importantly, despite over 600 million hooks deployed and nearly 6000 turtle interactions, longline fisheries have never recorded a single hawksbill take. We address whether the patterns we observe are due to population size and gear selectivity. Although most sea turtle species demonstrate clear patterns of oceanic development, hawksbills in the North Pacific may by contrast occupy a variety of ecosystems including coastal pelagic waters and shallow reefs in remote atolls. This focuses attention on hazards in these ecosystems - entanglement and ingestion of marine debris - and perhaps away from longline bycatch and decadal climate regimes that affect sea turtle development in oceanic regions. [ABSTRACT FROM AUTHOR]

Published

2016

9. Time in tortoiseshell: a bomb radiocarbon-validated chronology in sea turtle scutes.

Author

Van Houtan, Kyle S., Andrews, Allen H., Jones, T. Todd, Murakawa, Shawn K. K., and Hagemann, Molly E.

Subjects

*HAWKSBILL turtle, *FOOD diaries, *CRYPTODIRA, *MARINE reptiles, *ELECTROMAGNETIC waves

Abstract

Some of the most basic questions of sea turtle life history are also the most elusive. Many uncertainties surround lifespan, growth rates, maturity and spatial structure, yet these are critical factors in assessing population status. Here we examine the keratinized hard tissues of the hawksbill (Eretmochelys imbricata) carapace and use bomb radiocarbon dating to estimate growth and maturity. Scutes have an established dietary record, yet the large keratin deposits of hawksbills evoke a reliable chronology. We sectioned, polished and imaged posterior marginal scutes from 36 individual hawksbills representing all life stages, several Pacific populations and spanning eight decades. We counted the apparent growth lines, microsampled along growth contours and calibrated Δ[sup 14]C values to reference coral series. We fit von Bertalanffy growth function (VBGF) models to the results, producing a range of age estimates for each turtle. We find Hawaii hawksbills deposit eight growth lines annually (range 5-14), with model ensembles producing a somatic growth parameter (k) of 0.13 (range 0.1-0.2) and first breeding at 29 years (range 23-36). Recent bomb radiocarbon values also suggest declining trophic status. Together, our results may reflect long-term changes in the benthic community structure of Hawaii reefs, and possibly shed light on the critical population status for Hawaii hawksbills. [ABSTRACT FROM AUTHOR]

Published

2016

10. A Review of the Demographic Features of Hawaiian Green Turtles ( Chelonia mydas).

Author

Balazs, George H., Van Houtan, Kyle S., Hargrove, Stacy A., Brunson, Shandell M., and Murakawa, Shawn K. K.

Subjects

*GREEN turtle, *TURTLES, *MYDIDAE, *REPTILES

Abstract

This review summarizes all existing data and knowledge of the demographic variables and their stochasticity of Hawaiian green turtles. The population numbers roughly 4000 breeding females today, having rebounded from its near extinction in the early 1970s, with most of the nesting restricted to French Frigate Shoals in the remote and geologically ancient Northwestern Hawaiian Islands. A timeline is provided of the scientific monitoring for this population and associated data streams relating to morphometrics, maturity, nest dynamics, sex ratio, as well as population growth and viability. [ABSTRACT FROM AUTHOR]

Published

2015

11. Modeling Sea Turtle Maturity Age from Partial Life History Records.

Author

Van Houtan, Kyle S., Hargrove, Stacy K., and Balazs, George H.

Subjects

*SEA turtles, *GREEN turtle, *ANIMALS, *AGE, *SKELETOCHRONOLOGY, *TURTLE populations, *ANIMAL breeding, *LIFE history theory

Abstract

In the absence of direct observations, demographic traits such as age and reproductive status may be modeled through proxies. We examined 35 yr of over 10,000 captures of Hawaiian green turtles (Chelonia mydas) and compared results from skeletochronology studies with mark-recapture records. For 109 turtles that were captured as juveniles and later observed nesting, we estimated maturity age first from skeletochronology-based models of age to length and second by estimating age at first capture using skeletochronology and then adding the time elapsed to first nesting. The second method involving markrecapture gave younger and less variable age estimates. From these data we developed a scaling rule that calculates that females first bred at 23 yr (95% interval: 16.8 – 28.1). This result was corroborated by tag returns in the Caribbean and Hawai‘i showing that green turtles first nest at 16 – 20 yr. We validated this approach using life table models, successfully reconstructing four decades (1973 – 2012) of nesting surveys at East Island, French Frigate Shoals. We then compared our results with observed somatic growth rates, which suggest that nearshore studies may sample an atypical subset of the population that is chronically sedentary and slow growing. When exact life history traits are unknown, we recommend consulting multiple lines of evidence and independently validating proxy studies. [ABSTRACT FROM AUTHOR]

Published

2014

12. Historical commercial exploitation and the current status of Hawaiian green turtles.

Author

Van Houtan, Kyle S. and Kittinger, John N.

Subjects

*GREEN turtle, *CONSERVATION biology, *FISHERIES, *POPULATION ecology, *FISH populations

Abstract

Highlights: [•] Long-term ecological records are crucial for conservation planning, particularly for historically overexploited species. [•] Direct harvests from a commercial fishery were a key factor in the historical decline of Hawaiian green turtles. [•] Despite being small in scale, the fishery showed a serial progression, spatial expansion, and shift in gears to meet demand. [•] Such dramatic population impacts indicate the population was already significantly depleted when commercial fishery began. [Copyright &y& Elsevier]

Published

2014

13. Hawksbill Sea Turtles in the Northwestern Hawaiian Islands.

Author

VAN HOUTAN, KYLE S., KITTINGER, JOHN N., LAWRENCE, AMANDA L., YOSHINAGA, CHAD, BORN, V. RAY, and FOX, ADAM

Subjects

*HAWKSBILL turtle, *CROWDSOURCING, *NEST building, *CORAL reefs & islands

Abstract

This study reports observations of Hawksbiil sea turtles (Eretmochelys imbricata) in the Northwestern Hawaiian Islands, a remote and pro- tected expanse of coral atolls considered outside the species range. Since no direct monitoring efforts exist, we synthesized records from historical accounts, opportunistic sightings, and internet crowdsourcing. We found 6 definitive hawksbill observations and 3 additional potential nesting records, documenting that hawksbills currently reside in the Northwestern Hawaiian Islands and suggesting that they occurred there in greater numbers historically. [ABSTRACT FROM AUTHOR]

Published

2012

14. Long-Term Climate Forcing in Loggerhead Sea Turtle Nesting.

Author

Van Houtan, Kyle S. and Halley, John M.

Subjects

*MARINE biology research, *SEA turtles, *ANIMAL populations, *MARINE organisms, *OCEANOGRAPHIC instruments, *CLIMATE change, *LOGGERHEAD turtle, *CHELONIIDAE

Abstract

The long-term variability of marine turtle populations remains poorly understood, limiting science and management. Here we use basin-scale climate indices and regional surface temperatures to estimate loggerhead sea turtle (Caretta caretta) nesting at a variety of spatial and temporal scales. Borrowing from fisheries research, our models investigate how oceanographic processes influence juvenile recruitment and regulate population dynamics. This novel approach finds local populations in the North Pacific and Northwest Atlantic are regionally synchronized and strongly correlated to ocean conditions-such that climate models alone explain up to 88% of the observed changes over the past several decades. In addition to its performance, climate-based modeling also provides mechanistic forecasts of historical and future population changes. Hindcasts in both regions indicate climatic conditions may have been a factor in recent declines, but future forecasts are mixed. Available climatic data suggests the Pacific population will be significantly reduced by 2040, but indicates the Atlantic population may increase substantially. These results do not exonerate anthropogenic impacts, but highlight the significance of bottom-up oceanographic processes to marine organisms. Future studies should consider environmental baselines in assessments of marine turtle population variability and persistence. [ABSTRACT FROM AUTHOR]

Published

2011

15. Land Use, Macroalgae, and a Tumor-Forming Disease in Marine Turtles.

Author

Van Houtan, Kyle S., Hargrove, Stacy K., and Balazs, George H.

Subjects

*WILDLIFE diseases, *ANIMAL diseases, *ENDANGERED species, *GREEN turtle, *LAND use, *TUMORS, *ALGAE, *NITROGEN, *HERPESVIRUSES

Abstract

Wildlife diseases are an increasing concern for endangered species conservation, but their occurrence, causes, and human influences are often unknown. We analyzed 3,939 records of stranded Hawaiian green sea turtles (Chelonia mydas) over 28 years to understand fibropapillomatosis, a tumor-forming disease linked to a herpesvirus. Turtle size is a consistent risk factor and size-standardized models revealed considerable spatial and temporal variability. The disease peaked in some areas in the 1990s, in some regions rates remained constant, and elsewhere rates increased. Land use, onshore of where the turtles feed, may play a role. Elevated disease rates were clustered in watersheds with high nitrogen-footprints; an index of natural and anthropogenic factors that affect coastal eutrophication. Further analysis shows strong epidemiological links between disease rates, nitrogen-footprints, and invasive macroalgae and points to foraging ecology. These turtles now forage on invasive macroalgae, which can dominate nutrient rich waters and sequester environmental N in the amino acid arginine. Arginine is known to regulate immune activity, promote herpesviruses, and contribute to tumor formation. Our results have implications for understanding diseases in aquatic organisms, eutrophication, herpesviruses, and tumor formation. [ABSTRACT FROM AUTHOR]

Published

2010

16. Importance of estimating dispersal for endangered bird management.

Author

Van Houtan, Kyle S., Bass Jr., Oron L., Lockwood, Julie, and Pimm, Stuart L.

Subjects

*RARE birds, *SEASIDE sparrow, *WILDLIFE conservation

Abstract

Endangered species recovery plans are frustrated by small, spatially structured populations where understanding the influence of birth, death, and dispersal is difficult. Here we use a spatially explicit, long-term study to describe dispersal in the Cape Sable seaside sparrow ( Ammodramus maritimus mirabilis). Since 1990, this species declined > 50%. It occurs as several geographically isolated subpopulations in the Florida Everglades. We characterize dispersal, recognizing that our sampling, as well as the species’ distribution, is spatially heterogeneous. The annual movements of juveniles and adults are statistically heavy-tailed. That is, while most individuals are recaptured locally, a significant portion exhibit long-distance dispersal. Individuals move between subpopulations to distances >30 km. Not accounting for the spatial heterogeneity of sampling or the species range itself underestimates dispersal and can lead to ineffective management decisions. Recovery focused on translocation will be less successful than strategies that protect habitat and increase breeding. [ABSTRACT FROM AUTHOR]

Published

2010

17. Dispersal of Amazonian birds in continuous and fragmented forest.

Author

Van Houtan, Kyle S., Pimm, Stuart L., Halley, John M., Bierregaard Jr., Richard O., and Lovejoy, Thomas E.

Subjects

*ECOLOGY, *FORESTS & forestry, *FOREST birds

Abstract

Many ecologists believe birds disappear from tropical forest fragments because they are poor dispersers. We test this idea using a spatially explicit capture data base from the Biological Dynamics of Forest Fragments Project near Manaus, Brazil. We measure bird movements directly, over relatively large scales of space and time, both before and after landscape fragmentation. We found that species which disappear from fragments move extensively between plots before isolation, but not after, and often disperse to longer distances in continuous forest than in fragmented forest. Such species also preferentially emigrate from smaller to larger fragments, showing no preference in continuous forest. In contrast, species that persist in fragments are generally less mobile, do not cross gaps as often, yet disperse further after fragmentation than before. ‘Heavy tailed’ probability models usually explain dispersal kernels better than exponential or Gaussian models, suggesting tropical forest birds may be better dispersers than assumed with some individuals moving very long distances. [ABSTRACT FROM AUTHOR]

Published

2007

18. Conservation as Virtue: a Scientific and Social Process for Conservation Ethics.

Author

VAN HOUTAN, KYLE S.

Subjects

*NATURE conservation, *ENDANGERED ecosystems, *ENDANGERED species, *APPLIED ecology, *WILDLIFE conservation, *ECOLOGICAL risk assessment, *ENVIRONMENTAL impact analysis, *CONSERVATION of natural resources, *WILDLIFE habitat improvement, *ENVIRONMENTAL protection

Abstract

Most scientists take ethical arguments for conservation as given and focus on scientific or economic questions. Although nature conservation is often considered a just cause, it is given little further consideration. A lack of attention to ethical theory raises serious concerns for how conservation scientists conceive and practice ethics. I contrast two common ways scientists approach ethics, as demonstrated in the writings of Stephen Jay Gould and E. O. Wilson. Gould casts severe doubt as to whether any ethics are possible from science, whereas Wilson proposes science as the only path to ethics. I argue these two methods ultimately limit popular support for conservation and offer Alasdair MacIntyre's “virtue ethics” as an alternative. Unlike Gould and Wilson, MacIntyre provides an ethical theory that reconciles scientific inquiry and social traditions. Recent studies of the Civil Rights Movement in the United States affirm MacIntyre's claims and provide important insights for conservation today. These accounts argue that social solidarity and political success against segregation were possible only as rooted in the particular language, logic, and practices of a robust cultural tradition. If correct, conservation science should attend to several questions. On what basis can conservation achieve widespread cultural legitimacy? What are the particular social currencies for a conservation ethic? What role does science play in such a scheme? MacIntyre's careful positioning of scientific and social traditions provides a hopeful ethical direction for conservation. [ABSTRACT FROM AUTHOR]

Published

2006

19. Mathematical efficiency does not necessarily mean better.

Author

Jenkins, Clinton N. and Van Houtan, Kyle S.

Subjects

*WILDLIFE conservation, *HABITATS, *FISHERY management

Published

2017

20. Non‐trophic impacts from white sharks complicate population recovery for sea otters.

Author

Moxley, Jerry H., Nicholson, Teri E., Van Houtan, Kyle S., and Jorgensen, Salvador J.

Subjects

*WHITE shark, *SEA otter, *ECOSYSTEM management, *RESTORATION ecology, *PLANT phenology, *OTTERS

Abstract

Complex interactions between protected populations may challenge the recovery of whole ecosystems. In California, white sharks (Carcharodon carcharias) mistargeting southern sea otters (Enhydra lutris nereis) are an emergent impact to sea otter recovery, inhibiting the broader ecosystem restoration sea otters might provide. Here, we integrate and analyze tracking and stranding data to compare the phenology of interactions between white sharks and their targeted prey (elephant seals, Mirounga angustirostris) with those of mistargeted prey (sea otters, humans). Pronounced seasonal peaks in shark bites to otters and humans overlap in the late boreal summer, immediately before the annual adult white shark migration to elephant seal rookeries. From 1997 to 2017, the seasonal period when sharks bite otters expanded from 2 to 8 months of the year and occurred primarily in regions where kelp cover declined. Immature and male otters, demographics most associated with range expansion, were disproportionately impacted. While sea otters are understood to play a keystone role in kelp forests, recent ecosystem shifts are revealing unprecedented bottom‐up and top‐down interactions. Such shifts challenge ecosystem management programs that rely on static models of species interactions. [ABSTRACT FROM AUTHOR]

Published

2019

21. Densities and drivers of sea turtle populations across Pacific coral reef ecosystems.

Author

Becker, Sarah L., Brainard, Russell E., and Van Houtan, Kyle S.

Subjects

*TURTLE populations, *CORAL reefs & islands, *SEA turtles, *HAWKSBILL turtle, *GREEN turtle, *ECOSYSTEMS

Abstract

Sea turtle populations are often assessed at the regional to sub-basin scale from discrete indices of nesting abundance. While this may be practical and sometimes effective, widespread in-water surveys may enhance assessments by including additional demographics, locations, and revealing emerging population trends. Here, we describe sea turtle observations from 13 years of towed-diver surveys across 53 coral islands, atolls, and reefs in the Central, West, and South Pacific. These surveys covered more than 7,300 linear km, and observed more than 3,400 green (Chelonia mydas) and hawksbill (Eretmochelys imbricata) sea turtles. From these data, we estimated sea turtle densities, described trends across space and time, and modelled the influence of environmental and anthropogenic drivers. Both species were patchily distributed across spatial scales, and green turtles were 11 times more abundant than hawksbills. The Pacific Remote Island Areas had the highest densities of greens (3.62 turtles km-1, Jarvis Island), while American Samoa had the most hawksbills (0.12 turtles km-1, Ta'u Island). The Hawaiian Islands had the lowest turtle densities (island ave = 0.07 turtles km-1) yet the highest annual population growth (μ = 0.08, σ = 0.22), suggesting extensive management protections can yield positive conservation results. Densities peaked at 27.5°C SST, in areas of high productivity and low human impact, and were consistent with patterns of historic overexploitation. Though such intensive surveys have great value, they are logistically demanding and therefore have an uncertain budget and programmatic future. We hope the methods we described here may be applied to future comparatively low-cost surveys either with autonomous vehicles or with environmental DNA. [ABSTRACT FROM AUTHOR]

Published

2019

22. Reply to Brown et al.: Species and places are the priorities for conservation, not economic efficiency.

Author

Jenkins, Clinton N., Van Houtan, Kyle S., Pimm, Stuart L., and Sexton, Joseph O.

Subjects

*CONSERVATION of natural resources, *ECONOMIC efficiency

Abstract

A response from the author of the article regarding places and species as the priorities for conservation and not economic efficiency is presented.

Published

2015

23. Stormy oceans are associated with declines in sea turtle hatching

Author

Van Houtan, Kyle S. and Bass, Oron L.

Subjects

*SEA turtles, *EGG incubation, *ANIMAL populations, *RARE animals

Abstract

Summary: Many sea turtle populations are below 10% of their pre-Columbian numbers . Though historic and systematic over-exploitation is the principal cause of these declines, sea turtles face similar threats today. Adults and juveniles are actively hunted and commercial fisheries catch them incidentally. Nesting suffers from beach development, egg poaching and the poaching of nesting females. Accompanying these familiar hazards is the largely unknown consequences of recent climate change. Here we report monitoring surveys from the Dry Tortugas National Park (DTNP, 24.64N 82.86W), Florida, and show that hurricanes and other storm events are an additional and increasing threat to loggerhead turtle (Caretta caretta) and green sea turtle (Chelonia mydas) nesting. Both species are listed by the US Endangered Species Act and the IUCN considers them ‘endangered’. [Copyright &y& Elsevier]

Published

2007

24. Surrogate rearing a keystone species to enhance population and ecosystem restoration.

Author

Mayer, Karl A., Tinker, M. Tim, Nicholson, Teri E., Murray, Michael J., Johnson, Andrew B., Staedler, Michelle M., Fujii, Jessica A., and Van Houtan, Kyle S.

Subjects

*KEYSTONE species, *RESTORATION ecology, *SEA otter, *WILDLIFE conservation, *SURVIVAL rate, *ECOSYSTEMS

Abstract

Translocation and rehabilitation programmes are critical tools for wildlife conservation. These methods achieve greater impact when integrated in a combined strategy for enhancing population or ecosystem restoration. During 2002–2016 we reared 37 orphaned southern sea otter Enhydra lutris nereis pups, using captive sea otters as surrogate mothers, then released them into a degraded coastal estuary. As a keystone species, observed increases in the local sea otter population unsurprisingly brought many ecosystem benefits. The role that surrogate-reared otters played in this success story, however, remained uncertain. To resolve this, we developed an individual-based model of the local population using surveyed individual fates (survival and reproduction) of surrogate-reared and wild-captured otters, and modelled estimates of immigration. Estimates derived from a decade of population monitoring indicated that surrogate-reared and wild sea otters had similar reproductive and survival rates. This was true for males and females, across all ages (1–13 years) and locations evaluated. The model simulations indicated that reconstructed counts of the wild population are best explained by surrogate-reared otters combined with low levels of unassisted immigration. In addition, the model shows that 55% of observed population growth over this period is attributable to surrogate-reared otters and their wild progeny. Together, our results indicate that the integration of surrogacy methods and reintroduction of juvenile sea otters helped establish a biologically successful population and restore a once-impaired ecosystem. [ABSTRACT FROM AUTHOR]

Published

2021

25. Robust age estimation of southern sea otters from multiple morphometrics.

Author

Nicholson, Teri E., Mayer, Karl A., Staedler, Michelle M., Gagné, Tyler O., Murray, Michael J., Young, Marissa A., Tomoleoni, Joseph A., Tinker, Martin Tim, and Van Houtan, Kyle S.

Subjects

*SEA otter, *MORPHOMETRICS, *GROWTH plate, *ANIMAL populations, *TOOTH eruption, *TOOTH abrasion, *ONTOGENY

Abstract

Reliable age estimation is an essential tool to assess the status of wildlife populations and inform successful management. Aging methods, however, are often limited by too few data, skewed demographic representation, and by single or uncertain morphometric relationships. In this study, we synthesize age estimates in southern sea otters Enhydra lutris nereis from 761 individuals across 34 years of study, using multiple noninvasive techniques and capturing all life stages from 0 to 17 years of age. From wild, stranded, and captive individuals, we describe tooth eruptions, tooth wear, body length, nose scarring, and pelage coloration across ontogeny and fit sexbased growth functions to the data. Dental eruption schedules provided reliable and identifiable metrics spanning 0.3-9 months. Tooth wear was the most reliable predictor of age of individuals aged 1-15 years, which when combined with total length, explained >93% of observed age. Beyond age estimation, dental attrition also indicated the maximum lifespan of adult teeth is 13-17 years, corresponding with previous estimates of life expectancy. Von Bertalanffy growth function model simulations of length at age gave consistent estimates of asymptotic lengths (male Loo = 126.0-126.8 cm, female Loo = 115.3-115.7 cm), biologically realistic gestation periods (t0 = 115 days, SD = 10.2), and somatic growth (male k = 1.8, SD = 0.1; female k = 2.1, SD = 0.1). Though exploratory, we describe how field radiographic imaging of epiphyseal plate development or fusions may improve aging of immature sea otters. Together, our results highlight the value of integrating information from multiple and diverse datasets to help resolve conservation problems. [ABSTRACT FROM AUTHOR]

Published

2020

26. Herbaria macroalgae as a proxy for historical upwelling trends in Central California.

Author

Miller, Emily A., Lisin, Susan E., Smith, Celia M., and Van Houtan, Kyle S.

Subjects

*HERBARIA, *MARINE resources, *STABLE isotopes, *MARINE algae, *HEAVY metals, *PROXY, *ALGAE, *CERAMIALES

Abstract

Planning for future ocean conditions requires historical data to establish more informed ecological baselines. To date, this process has been largely limited to instrument records and observations that begin around 1950. Here, we show how marine macroalgae specimens from herbaria repositories may document long-term ecosystem processes and extend historical information records into the nineteenth century. We tested the effect of drying and pressing six macroalgae species on amino acid, heavy metal and bulk stable isotope values over 1 year using modern and archived paper. We found historical paper composition did not consistently affect values. Certain species, however, had higher variability in particular metrics while others were more consistent. Multiple herbaria provided Gelidium (Rhodophyta) samples collected in southern Monterey Bay from 1878 to 2018. We examined environmental relationships and found δ15N correlated with the Bakun upwelling index, the productivity regime of this ecosystem, from 1946 to 2018. Then, we hindcasted the Bakun index using its derived relationship with Gelidium δ15N from 1878 to 1945. This hindcast provided new information, observing an upwelling decrease mid-century leading up to the well-known sardine fishery crash. Our case study suggests marine macroalgae from herbaria are an underused resource of the marine environment that precedes modern scientific data streams. [ABSTRACT FROM AUTHOR]

Published

2020

27. Towards a global understanding of the drivers of marine and terrestrial biodiversity.

Author

Gagné, Tyler O., Reygondeau, Gabriel, Jenkins, Clinton N., Sexton, Joseph O., Bograd, Steven J., Hazen, Elliott L., and Van Houtan, Kyle S.

Subjects

*MARINE biodiversity, *ARTIFICIAL neural networks, *SPECIES diversity, *CLIMATE change

Abstract

Understanding the distribution of life's variety has driven naturalists and scientists for centuries, yet this has been constrained both by the available data and the models needed for their analysis. Here we compiled data for over 67,000 marine and terrestrial species and used artificial neural networks to model species richness with the state and variability of climate, productivity, and multiple other environmental variables. We find terrestrial diversity is better predicted by the available environmental drivers than is marine diversity, and that marine diversity can be predicted with a smaller set of variables. Ecological mechanisms such as geographic isolation and structural complexity appear to explain model residuals and also identify regions and processes that deserve further attention at the global scale. Improving estimates of the relationships between the patterns of global biodiversity, and the environmental mechanisms that support them, should help in efforts to mitigate the impacts of climate change and provide guidance for adapting to life in the Anthropocene. [ABSTRACT FROM AUTHOR]

Published

2020

28. Gaps in kelp cover may threaten the recovery of California sea otters.

Author

Nicholson, Teri E., Mayer, Karl A., Staedler, Michelle M., Fujii, Jessica A., Murray, Michael J., Johnson, Andrew B., Tinker, M. Tim, and Van Houtan, Kyle S.

Subjects

*SEA otter, *ENDANGERED species, *ENDANGERED species laws, *ANIMAL populations, *PLANT canopies, *GROUND cover plants, *HABITATS

Abstract

Despite more than a century of federal protection, the California sea otter Enhydra lutris nereis remains threatened under the U.S. Endangered Species Act (ESA), and the population has not appreciably expanded its range in two decades. Here, we examine a novel dataset of 725 sea otter live strandings from 1984–2015 to gain insights into demographic and environmental factors underlying threats to sea otter recovery. Using multinomial logistic regression to evaluate spatiotemporal patterns of stranding causes, we demonstrate that increases in stranding rates, particularly outside the range center, are related to a substantial increase in shark bites. By contrast, trauma linked to human activities has declined dramatically, and now accounts for less than 5% of stranding cases. Within the range core, where the sea otter population seems regulated by prey availability, symptoms of energetic stress represent more than 63% of all strandings and are strongly associated with high sea otter density. Conversely, in range peripheries, the majority of strandings are caused by shark bite and neurological disease. Notably, these threats are virtually absent where nearshore habitat is characterized by at least 10% kelp canopy cover. Our analyses reveal that declining kelp cover may therefore constrain the population's spatial expansion and recovery in two key ways. Absence of kelp intensifies density‐independent threats in the range peripheries, and likely limits dispersal of reproductive females, which depend on kelp canopy for nursery habitat. These results highlight the significance of both top‐down and bottom‐up processes in population dynamics, and inform an ecosystem‐based approach to conservation planning. [ABSTRACT FROM AUTHOR]

Published

2018

29. Advancing surrogate-rearing methods to enhance southern sea otter recovery.

Author

Nicholson, Teri E., Mayer, Karl A., Hazan, Sandrine H., Murray, Michael J., Van Houtan, Kyle S., DeAngelo, Christine M., Johnson, Andrew B., and Fujii, Jessica A.

Subjects

*SEA otter, *MACHINE learning, *WILDLIFE recovery, *ENDANGERED ecosystems, *ENDANGERED species, *ORPHANS, *ANIMAL populations

Abstract

Recovery of wildlife and their ecosystems may require enhancement of vulnerable populations through human intervention. As a southern sea otter (Enhydra lutris nereis) enhancement strategy, surrogate rearing and releasing of stranded orphans provides these individuals with another opportunity of life in the wild, promotes species-specific development of behaviors necessary for survival and reproduction after release, and may bolster targeted populations and resiliency of nearshore ecosystems. To further advance surrogacy as a viable recovery strategy for this threatened subspecies, we comprehensively describe our methods and use a machine learning algorithm to monitor and evaluate program success. Specifically, we model 20 years (2002−2021) of rehabilitation outcomes for 64 pups (i.e., success or failure reacclimating to the wild) based on 34 parameters representing three release sites and five treatment stages: stranding, stabilization, surrogacy, pre-release, and release. We find that surrogacy is a successful rehabilitation method (75%), robust to all measured factors through release preparation, including idiosyncrasies in pup origin, age, early development, and pairings with female sea otters. Instead, key performance indicators of successful outcomes in the wild are environmental conditions experienced during release, such as favorable sea conditions and weather, localized dispersal, and minimal competition from local populations. Most importantly, success requires optimal values among all environmental conditions at chosen release sites because a decline in any one factor may result in failure. Our findings highlight the importance of continuously evaluating rehabilitation methods to enhance species recovery and may have broader application to restoring other threatened species and their ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

30. Ecosystem effects of the Atlantic Multidecadal Oscillation.

Author

Nye, Janet A., Baker, Matthew R., Bell, Richard, Kenny, Andrew, Kilbourne, K. Halimeda, Friedland, Kevin D., Martino, Edward, Stachura, Megan M., Van Houtan, Kyle S., and Wood, Robert

Subjects

*ATLANTIC multidecadal oscillation, *MARINE ecology, *OCEANOGRAPHY, *GEOLOGICAL basins, *OCEAN temperature

Abstract

Abstract: Multidecadal variability in the Atlantic Ocean and its importance to the Earth's climate system has been the subject of study in the physical oceanography field for decades. Only recently, however, has the importance of this variability, termed the Atlantic Multidecadal Oscillation or AMO, been recognized by ecologists as an important factor influencing ecosystem state. A growing body of literature suggests that AMO-related fluctuations are associated with shifts in ecological boundaries, primary productivity, and a number of ecologically and economically important coastal and marine populations across the Atlantic basin. Although the AMO is a basin-wide index of SST, the drivers of ecosystem change encompass more than temperature anomalies and the mode of action differs within each ecosystem. A common theme in assessing ecosystem change indicates that fluctuations in water masses and circulation patterns drive shifts in ecosystem states, but the magnitude and rate of change is dependent on the physical characteristics of the region. Because of the wide ranging geographic effects of the AMO, and considering its multidecadal nature, a more complete understanding of its causes and effects would allow scientists and managers to more effectively inform ecosystem-based management across the Atlantic Basin. [Copyright &y& Elsevier]

Published

2014

31. Resource Requirements of the Pacific Leatherback Turtle Population.

Author

Jones, T. Todd, Bostrom, Brian L., Hastings, Mervin D., Van Houtan, Kyle S., Pauly, Daniel, and Jones, David R.

Subjects

*SEA turtles, *FISHERIES, *GROWTH rate, *FOOD consumption, *MORTALITY, *JELLYFISHES

Abstract

The Pacific population of leatherback sea turtles (Dermochelys coriacea) has drastically declined in the last 25 years. This decline has been linked to incidental capture by fisheries, egg and meat harvesting, and recently, to climate variability and resource limitation. Here we couple growth rates with feeding experiments and food intake functions to estimate daily energy requirements of leatherbacks throughout their development. We then estimate mortality rates from available data, enabling us to raise food intake (energy requirements) of the individual to the population level. We place energy requirements in context of available resources (i.e., gelatinous zooplankton abundance). Estimated consumption rates suggest that a single leatherback will eat upward of 1000 metric tonnes (t) of jellyfish in its lifetime (range 924-1112) with the Pacific population consuming 2.1 x 106 t of jellyfish annually (range 1.0-3.7 x 106) equivalent to 4.2 x 108 megajoules (MJ) (range 2.0-7.4 x 108). Model estimates suggest 2-7 yr-old juveniles comprise the majority of the Pacific leatherback population biomass and account for most of the jellyfish consumption (1.1 x 106 t of jellyfish or 2.2 x 108 MJ per year). Leatherbacks are large gelatinous zooplanktivores with consumption to biomass ratios of 96 (up to 192 if feeding strictly on low energy density Cnidarians); they, therefore, have a large capacity to impact gelatinous zooplankton landscapes. Understanding the leatherback's needs for gelatinous zooplankton, versus the availability of these resources, can help us better assess population trends and the influence of climate induced resource limitations to reproductive output. [ABSTRACT FROM AUTHOR]

Published

2012

32. The fate of Amazonian forest fragments: A 32-year investigation

Author

Laurance, William F., Camargo, José L.C., Luizão, Regina C.C., Laurance, Susan G., Pimm, Stuart L., Bruna, Emilio M., Stouffer, Philip C., Bruce Williamson, G., Benítez-Malvido, Julieta, Vasconcelos, Heraldo L., Van Houtan, Kyle S., Zartman, Charles E., Boyle, Sarah A., Didham, Raphael K., Andrade, Ana, and Lovejoy, Thomas E.

Subjects

*FRAGMENTED landscapes, *EXPERIMENTAL design, *TREE mortality, *WINDSTORMS, *PLANT populations, *BIOTIC communities, *PLANT species

Abstract

Abstract: We synthesize findings to date from the world’s largest and longest-running experimental study of habitat fragmentation, located in central Amazonia. Over the past 32years, Amazonian forest fragments ranging from 1 to 100ha have experienced a wide array of ecological changes. Edge effects have been a dominant driver of fragment dynamics, strongly affecting forest microclimate, tree mortality, carbon storage, fauna, and other aspects of fragment ecology. However, edge-effect intensity varies markedly in space and time, and is influenced by factors such as edge age, the number of nearby edges, and the adjoining matrix of modified vegetation surrounding fragments. In our study area, the matrix has changed markedly over the course of the study (evolving from large cattle pastures to mosaics of abandoned pasture and regrowth forest) and this in turn has strongly influenced fragment dynamics and faunal persistence. Rare weather events, especially windstorms and droughts, have further altered fragment ecology. In general, populations and communities of species in fragments are hyperdynamic relative to nearby intact forest. Some edge and fragment-isolation effects have declined with a partial recovery of secondary forests around fragments, but other changes, such as altered patterns of tree recruitment, are ongoing. Fragments are highly sensitive to external vicissitudes, and even small changes in local land-management practices may drive fragmented ecosystems in markedly different directions. The effects of fragmentation are likely to interact synergistically with other anthropogenic threats such as logging, hunting, and especially fire, creating an even greater peril for the Amazonian biota. [ABSTRACT FROM AUTHOR]

Published

2011

33. Examining the potential conflict between sea otter recovery and Dungeness crab fisheries in California.

Author

Boustany, Andre M., Hernandez, David A., Miller, Emily A., Fujii, Jessica A., Nicholson, Teri E., Tomoleoni, Joseph A., and Van Houtan, Kyle S.

Subjects

*SEA otter, *CRABS, *MARINE mammals, *FISHERIES, *FISH growth, *FISH mortality

Abstract

Human exploitation of marine mammals led to precipitous declines in many wild populations within the last three centuries. Legal protections enacted throughout the 20th century have enabled the recovery of many of these species and some recoveries have resulted in conflict with humans for shared resources. With legal protections and reintroduction programs, the southern sea otter (Enhydra lutris nereis) has returned to portions of its former range from which it had been extirpated for decades, causing concern that the Dungeness crab (Cancer magister) fishery could be negatively affected by increasing otter range and population size. The Dungeness crab fishery is one of the most valuable in California, and these crabs are a known prey item of sea otters. We examine sea otter population growth by port region in relation to Dungeness crab catch using landing receipts since the early 1980s. We find Dungeness crab landings and fishing success, as measured by landings per trip receipt, increased across all ports. In the most recent decade, we observed slower growth in fishing success in northern ports where otters were absent, relative to southern ports where sea otters exist and their populations have grown. In ports where otters were present, fishing success was positively correlated with otter population size over time. Further, an extensive dataset of 83,000 sea otter foraging dives identified Dungeness crab to be less than 2% of the total diet. Though we find no evidence that sea otter populations impact the Dungeness crab fishery in California, other potential conflicts could be considered before expanding reintroduction programs. [ABSTRACT FROM AUTHOR]

Published

2021

34. Author Correction: The vertical distribution and biological transport of marine microplastics across the epipelagic and mesopelagic water column.

Author

Choy, C. Anela, Robison, Bruce H., Gagne, Tyler O., Erwin, Benjamin, Firl, Evan, Halden, Rolf U., Hamilton, J. Andrew, Katija, Kakani, Lisin, Susan E., Rolsky, Charles, and Van Houtan, Kyle S.

Subjects

*BIOLOGICAL transport, *PLASTIC marine debris

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper. [ABSTRACT FROM AUTHOR]

Published

2020