Your search keyword '"Nicholson, Teri E."' showing total 9 results

1. 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.

Published

2023

2. 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.

Published

2021

3. Effects of ontogeny and oiling on the thermal function of southern sea otter (Enhydra lutris nereis) fur.

Author

Riordan, Kate, Thometz, Nicole M, Batac, Francesca I, Nicholson, Teri E, and Liwanag, Heather E M

Abstract

During the evolution of most marine mammals, fur as an insulator has been replaced with more buoyant, energy storing and streamlining blubber. By contrast, the sea otter (Enhydra lutris) relies on insulation from its dense, air-trapping pelage, which differs morphologically between natal and adult stages. In this study, we investigated the ontogenetic changes in thermal function of southern sea otter (Enhydra lutris nereis) pelts in air, in water, and when saturated with crude oil. Pelt thermal conductivity, thickness, and thermal resistance were measured for six age classes: neonate (<1 month), small pup (1–2 months), large pup (3–5 months), juvenile (6 months–1 year), subadult (1–3 years), and adult (4–9 years). Thermal conductivity was significantly higher for pelts in air than in water, with oiled pelts exhibiting the highest values (P  < 0.001). Oiled pelts had the lowest thermal resistance, which suggests that regardless of age, all sea otters are vulnerable to the effects of oiling (P  < 0.001). To scale up our laboratory findings, we used a volume-specific geometric model of conductive heat transfer for a simplified sea otter body, representing all tested age classes and treatments. Neonates, small pups, and large pups are more vulnerable to the effects of oiling compared with older age classes (P  < 0.0001) due to a higher surface area-to-volume ratio. These results are consistent with the known thermal conductance values for adult sea otter pelts, yet this is the first time such thermal differences have been demonstrated in young otters. Overall, body size and age play a more important role in the thermal abilities of sea otters than previously thought. [ABSTRACT FROM AUTHOR]

Published

2023

4. Southern Sea Otter Rehabilitation: Lessons and Impacts from the Monterey Bay Aquarium.

Author

Konrad, Leilani, Fujii, Jessica A., Hazan, Sandrine, Johnson, Andrew B., Mayer, Karl A., Murray, Michael J., Nicholson, Teri E., Staedler, Michelle M., and Young, Colleen

Subjects

SEA otter, WILDLIFE conservation, AQUARIUMS, REHABILITATION, WILDLIFE rehabilitation, ANIMAL populations

Abstract

As biodiversity continues to decline across the globe, conservation of wildlife species and the ecosystems they inhabit is more important than ever. When species dwindle, ecosystems that depend on them are also impacted, often leading to a decrease in the life-giving services healthy ecosystems provide to humans, wildlife, and the global environment. Methods of wildlife conservation are complex and multi-faceted, ranging from education and advocacy to, research, restoration, and rehabilitation. Here, we review a conservation program focused on helping recover the federally listed threatened southern sea otter (Enhydra lutris nereis) population. We describe the development of unique rehabilitation methods and steps taken to advance the program's conservation impact. Understanding this evolution can inform conservation efforts for other vulnerable species and their ecosystems. [ABSTRACT FROM AUTHOR]

Published

2022

5. Effects of rearing methods on survival of released free-ranging juvenile southern sea otters

Author

Nicholson, Teri E., Mayer, Karl A., Staedler, Michelle M., and Johnson, Andrew B.

Published

2007

6. 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

7. 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

8. 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

9. 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