Stacie J Robinson
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Explore the profile of Stacie J Robinson including associated specialties, affiliations and a list of published articles.
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13
Citations
192
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Recent Articles
1.
Robinson S, Amlin A, Barbieri M
J Wildl Dis
. 2023 Mar;
59(1):1-11.
PMID: 36928674
Toxoplasmosis is a major threat to Hawaiian monk seals (Neomonachus schauinslandi) in the main Hawaiian Islands where seal habitat overlaps with substantial human and domestic cat populations. As the definitive...
2.
Kaufman A, Robinson S, Borjesson D, Barbieri M, Littnan C
J Zoo Wildl Med
. 2018 Dec;
49(4):1036-1040.
PMID: 30592935
Hematology and serum chemistry reference intervals have been previously established for the endangered Hawaiian monk seal ( Neomonachus schauinslandi) as an imperative measure for health assessments. Monitoring the health of...
3.
Barbieri M, Duncan C, Harting A, Pabilonia K, Johanos T, Goldstein T, et al.
J Wildl Dis
. 2018 Mar;
54(3):564-568.
PMID: 29561711
There is considerable temporal and spatial variability in the reproductive rates of Hawaiian monk seals (HMS; Neomonachus schauinslandi). Poor reproductive performance limits the recovery of this endangered species; however, causal...
4.
Robinson S, Barbieri M, Murphy S, Baker J, Harting A, Craft M, et al.
Proc Biol Sci
. 2018 Jan;
285(1870).
PMID: 29321294
Where disease threatens endangered wildlife populations, substantial resources are required for management actions such as vaccination. While network models provide a promising tool for identifying key spreaders and prioritizing efforts...
5.
Baker J, Harting A, Barbieri M, Robinson S, Gulland F, Littnan C
J Wildl Dis
. 2017 May;
53(4):736-748.
PMID: 28463627
We developed a stochastic susceptible-exposed-infectious-removed (SEIR) model to simulate a range of plausible morbillivirus outbreak scenarios in a randomly mixing population of 170 endangered Hawaiian monk seals (Neomonachus schauinslandi). We...
6.
Baker J, Harting A, Barbieri M, Johanos T, Robinson S, Littnan C
J Wildl Dis
. 2016 May;
52(3):533-43.
PMID: 27195686
Understanding disease transmission dynamics, which are in part mediated by rates and patterns of social contact, is fundamental to predicting the likelihood, rate of spread, impacts, and mitigation of disease...
7.
Robinson S, Neitzel D, Moen R, Craft M, Hamilton K, Johnson L, et al.
Ecohealth
. 2014 Oct;
12(1):152-63.
PMID: 25281302
As humans and climate change alter the landscape, novel disease risk scenarios emerge. Understanding the complexities of pathogen emergence and subsequent spread as shaped by landscape heterogeneity is crucial to...
8.
Magle S, Samuel M, Van Deelen T, Robinson S, Mathews N
PLoS One
. 2013 Feb;
8(2):e56568.
PMID: 23437171
Wildlife disease transmission, at a local scale, can occur from interactions between infected and susceptible conspecifics or from a contaminated environment. Thus, the degree of spatial overlap and rate of...
9.
Robinson S, Samuel M, Lopez D, Shelton P
Mol Ecol
. 2012 Aug;
21(17):4190-205.
PMID: 22882236
One of the pervasive challenges in landscape genetics is detecting gene flow patterns within continuous populations of highly mobile wildlife. Understanding population genetic structure within a continuous population can give...
10.
Robinson S, Samuel M, Johnson C, Adams M, McKenzie D
Ecol Appl
. 2012 Jun;
22(3):1050-9.
PMID: 22645831
Infectious diseases are increasingly recognized as an important force driving population dynamics, conservation biology, and natural selection in wildlife populations. Infectious agents have been implicated in the decline of small...