Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014

Deborah A. Fauquier; Jenny Litz; Susan Sanchez; Kathleen Colegrove; Lori H. Schwacke; Leslie Hart; Jeremiah Saliki; Cynthia Smith; Tracey Goldstein; Sabrina Bowen-Stevens; Wayne McFee; Erin Fougeres; Blair Mase-Guthrie; Elizabeth Stratton; Ruth Ewing; Stephanie Venn-Watson; Ruth H. Carmichael; Connie Clemons-Chevis; Wendy Hatchett; Delphine Shannon; Steve Shippee; Suzanne Smith; Lydia Staggs; Mandy C. Tumlin; Noel L. Wingers; Teri K. Rowles

doi:10.3354/esr00772

Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014

Deborah A. Fauquier, Jenny Litz, Susan Sanchez, Kathleen Colegrove, Lori H. Schwacke, Leslie Hart, Jeremiah Saliki, Cynthia Smith, Tracey Goldstein, Sabrina Bowen-Stevens, Wayne McFee, Erin Fougeres, Blair Mase-Guthrie, Elizabeth Stratton, Ruth Ewing, Stephanie Venn-Watson, Ruth H. Carmichael, Connie Clemons-Chevis, Wendy Hatchett, Delphine ShannonSteve Shippee, Suzanne Smith, Lydia Staggs, Mandy C. Tumlin, Noel L. Wingers, Teri K. Rowles

Research output: Contribution to journal › Article › peer-review

Abstract

The potential role of morbillivirus was evaluated in the deaths of > 1100 bottlenose dolphins Tursiops truncatus and other small cetaceans that stranded from February 2010 through July 2014, during the northern Gulf of Mexico (GoM) unusual mortality event (UME). Morbillivirus analysis was carried out on 142 live or freshly dead cetaceans and results were combined with samples from 102 live, free-ranging bottlenose dolphins sampled during capture-release health assessments conducted from 2011 to 2014. Polymerase chain reaction (PCR) testing for morbillivirus showed that 9.9% (14/142) of the stranded cetaceans and 1% (1/83) of the free-ranging live dolphins were positive for dolphin morbilliviral (DMV) RNA. In contrast, previous DMV dolphin die-offs had DMV detectable by PCR in 61 to 97% of animals tested. Histologic findings consistent with morbillivirus infection, including lymphoid depletion, bronchointerstitial pneumonia, syncytial cell formation, or meningoencephalitis, were found in 6.6% (9/136) of the cetaceans that underwent histologic examinations. Serological analysis using a virus neutralization assay found that 29% (5/17) of live stranded and 23% (23/102) of live free-ranging bottlenose dolphins had titers of 64 or greater for cetacean morbillivirus, indicating prior but not necessarily recent exposure to morbillivirus. Current findings suggest that DMV infection, although present in the northern GoM, was sporadic and occurred at low levels and therefore was not the primary cause of the northern GoM UME. Confirmation of DMV infections and existing DMV titers demonstrate continued exposure to morbillivirus among northern GoM cetaceans since the first detection of this virus in the early 1990s.

Original language	English (US)
Pages (from-to)	211-220
Number of pages	10
Journal	Endangered Species Research
Volume	33
Issue number	1
DOIs	https://doi.org/10.3354/esr00772
State	Published - 2017

Keywords

Dolphin
Polymerase chain reaction
Strandings
Tursiops truncatus
Unusual mortality event

ASJC Scopus subject areas

Ecology
Nature and Landscape Conservation

Online availability

10.3354/esr00772

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Fauquier, D. A., Litz, J., Sanchez, S., Colegrove, K., Schwacke, L. H., Hart, L., Saliki, J., Smith, C., Goldstein, T., Bowen-Stevens, S., McFee, W., Fougeres, E., Mase-Guthrie, B., Stratton, E., Ewing, R., Venn-Watson, S., Carmichael, R. H., Clemons-Chevis, C., Hatchett, W., ... Rowles, T. K. (2017). Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014. Endangered Species Research, 33(1), 211-220. https://doi.org/10.3354/esr00772

Fauquier, DA, Litz, J, Sanchez, S, Colegrove, K, Schwacke, LH, Hart, L, Saliki, J, Smith, C, Goldstein, T, Bowen-Stevens, S, McFee, W, Fougeres, E, Mase-Guthrie, B, Stratton, E, Ewing, R, Venn-Watson, S, Carmichael, RH, Clemons-Chevis, C, Hatchett, W, Shannon, D, Shippee, S, Smith, S, Staggs, L, Tumlin, MC, Wingers, NL & Rowles, TK 2017, 'Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014', Endangered Species Research, vol. 33, no. 1, pp. 211-220. https://doi.org/10.3354/esr00772

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title = "Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014",

abstract = "The potential role of morbillivirus was evaluated in the deaths of > 1100 bottlenose dolphins Tursiops truncatus and other small cetaceans that stranded from February 2010 through July 2014, during the northern Gulf of Mexico (GoM) unusual mortality event (UME). Morbillivirus analysis was carried out on 142 live or freshly dead cetaceans and results were combined with samples from 102 live, free-ranging bottlenose dolphins sampled during capture-release health assessments conducted from 2011 to 2014. Polymerase chain reaction (PCR) testing for morbillivirus showed that 9.9% (14/142) of the stranded cetaceans and 1% (1/83) of the free-ranging live dolphins were positive for dolphin morbilliviral (DMV) RNA. In contrast, previous DMV dolphin die-offs had DMV detectable by PCR in 61 to 97% of animals tested. Histologic findings consistent with morbillivirus infection, including lymphoid depletion, bronchointerstitial pneumonia, syncytial cell formation, or meningoencephalitis, were found in 6.6% (9/136) of the cetaceans that underwent histologic examinations. Serological analysis using a virus neutralization assay found that 29% (5/17) of live stranded and 23% (23/102) of live free-ranging bottlenose dolphins had titers of 64 or greater for cetacean morbillivirus, indicating prior but not necessarily recent exposure to morbillivirus. Current findings suggest that DMV infection, although present in the northern GoM, was sporadic and occurred at low levels and therefore was not the primary cause of the northern GoM UME. Confirmation of DMV infections and existing DMV titers demonstrate continued exposure to morbillivirus among northern GoM cetaceans since the first detection of this virus in the early 1990s.",

keywords = "Dolphin, Polymerase chain reaction, Strandings, Tursiops truncatus, Unusual mortality event",

author = "Fauquier, {Deborah A.} and Jenny Litz and Susan Sanchez and Kathleen Colegrove and Schwacke, {Lori H.} and Leslie Hart and Jeremiah Saliki and Cynthia Smith and Tracey Goldstein and Sabrina Bowen-Stevens and Wayne McFee and Erin Fougeres and Blair Mase-Guthrie and Elizabeth Stratton and Ruth Ewing and Stephanie Venn-Watson and Carmichael, {Ruth H.} and Connie Clemons-Chevis and Wendy Hatchett and Delphine Shannon and Steve Shippee and Suzanne Smith and Lydia Staggs and Tumlin, {Mandy C.} and Wingers, {Noel L.} and Rowles, {Teri K.}",

note = "Funding Information: This work was part of the Deepwater Horizon NRDA being conducted cooperatively among NOAA, other federal and state Trustees, and BP plc. The findings and conclusions in this paper are those of the authors and do not necessarily represent the view of NOAA or of any other natural resource Trustee for the BP/Deep-water Horizon NRDA. The authors thank members of the Working Group for Marine Mammal Unusual Mortality Events and the following individuals who have held critical roles in the ongoing northern GoM UME investigation: Jeff Adams, Micah Brodsky, Laura Dias, Laura Engleby, Lance Garrison, Michael Kinsel, Lauren Noble, Gina Rappucci, and Trevor Spradlin. This work could not have been conducted without the tireless efforts of the Southeast US Marine Mammal Stranding Network and the authors particularly acknowledge the staff and volunteers of the following agencies: Audubon Aquarium of the Americas, Dauphin Island Sea Lab, Emerald Coast Wildlife Refuge, GulfWorld Marine Park, Institute for Marine Mammal Studies, Louisiana Department of Wildlife and Fisheries, Louisiana Marine Mammal Stranding Network, McNeese State University, Mississippi Department of Marine Resources, Mote Marine Laboratory, National Park Service, National Marine Fisheries Service, St. Joseph Peninsula State Park, Southwest Florida Marine Mammal Stranding Network, Texas Marine Mammal Stranding Network, and Tyndall Air Force Base. We thank the staff at the Athens Veterinary Diagnostic Laboratory and the One Health Institute Laboratory for performing the laboratory analysis, especially Brett Smith, and also Dr. John Hammond for primers designed for primer walking to amplify the morbilliviral genome. This work was conducted under NMFS Permit 932-1905/MA-009526 and 112c and 109h NMFS Stranding Agreements. Publisher Copyright: {\textcopyright} Outside the USA the US Government 2017.",

year = "2017",

doi = "10.3354/esr00772",

language = "English (US)",

volume = "33",

pages = "211--220",

journal = "Endangered Species Research",

issn = "1863-5407",

publisher = "Inter-Research",

number = "1",

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T1 - Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014

AU - Fauquier, Deborah A.

AU - Litz, Jenny

AU - Sanchez, Susan

AU - Colegrove, Kathleen

AU - Schwacke, Lori H.

AU - Hart, Leslie

AU - Saliki, Jeremiah

AU - Smith, Cynthia

AU - Goldstein, Tracey

AU - Bowen-Stevens, Sabrina

AU - McFee, Wayne

AU - Fougeres, Erin

AU - Mase-Guthrie, Blair

AU - Stratton, Elizabeth

AU - Ewing, Ruth

AU - Venn-Watson, Stephanie

AU - Carmichael, Ruth H.

AU - Clemons-Chevis, Connie

AU - Hatchett, Wendy

AU - Shannon, Delphine

AU - Shippee, Steve

AU - Smith, Suzanne

AU - Staggs, Lydia

AU - Tumlin, Mandy C.

AU - Wingers, Noel L.

AU - Rowles, Teri K.

N1 - Funding Information: This work was part of the Deepwater Horizon NRDA being conducted cooperatively among NOAA, other federal and state Trustees, and BP plc. The findings and conclusions in this paper are those of the authors and do not necessarily represent the view of NOAA or of any other natural resource Trustee for the BP/Deep-water Horizon NRDA. The authors thank members of the Working Group for Marine Mammal Unusual Mortality Events and the following individuals who have held critical roles in the ongoing northern GoM UME investigation: Jeff Adams, Micah Brodsky, Laura Dias, Laura Engleby, Lance Garrison, Michael Kinsel, Lauren Noble, Gina Rappucci, and Trevor Spradlin. This work could not have been conducted without the tireless efforts of the Southeast US Marine Mammal Stranding Network and the authors particularly acknowledge the staff and volunteers of the following agencies: Audubon Aquarium of the Americas, Dauphin Island Sea Lab, Emerald Coast Wildlife Refuge, GulfWorld Marine Park, Institute for Marine Mammal Studies, Louisiana Department of Wildlife and Fisheries, Louisiana Marine Mammal Stranding Network, McNeese State University, Mississippi Department of Marine Resources, Mote Marine Laboratory, National Park Service, National Marine Fisheries Service, St. Joseph Peninsula State Park, Southwest Florida Marine Mammal Stranding Network, Texas Marine Mammal Stranding Network, and Tyndall Air Force Base. We thank the staff at the Athens Veterinary Diagnostic Laboratory and the One Health Institute Laboratory for performing the laboratory analysis, especially Brett Smith, and also Dr. John Hammond for primers designed for primer walking to amplify the morbilliviral genome. This work was conducted under NMFS Permit 932-1905/MA-009526 and 112c and 109h NMFS Stranding Agreements. Publisher Copyright: © Outside the USA the US Government 2017.

PY - 2017

Y1 - 2017

N2 - The potential role of morbillivirus was evaluated in the deaths of > 1100 bottlenose dolphins Tursiops truncatus and other small cetaceans that stranded from February 2010 through July 2014, during the northern Gulf of Mexico (GoM) unusual mortality event (UME). Morbillivirus analysis was carried out on 142 live or freshly dead cetaceans and results were combined with samples from 102 live, free-ranging bottlenose dolphins sampled during capture-release health assessments conducted from 2011 to 2014. Polymerase chain reaction (PCR) testing for morbillivirus showed that 9.9% (14/142) of the stranded cetaceans and 1% (1/83) of the free-ranging live dolphins were positive for dolphin morbilliviral (DMV) RNA. In contrast, previous DMV dolphin die-offs had DMV detectable by PCR in 61 to 97% of animals tested. Histologic findings consistent with morbillivirus infection, including lymphoid depletion, bronchointerstitial pneumonia, syncytial cell formation, or meningoencephalitis, were found in 6.6% (9/136) of the cetaceans that underwent histologic examinations. Serological analysis using a virus neutralization assay found that 29% (5/17) of live stranded and 23% (23/102) of live free-ranging bottlenose dolphins had titers of 64 or greater for cetacean morbillivirus, indicating prior but not necessarily recent exposure to morbillivirus. Current findings suggest that DMV infection, although present in the northern GoM, was sporadic and occurred at low levels and therefore was not the primary cause of the northern GoM UME. Confirmation of DMV infections and existing DMV titers demonstrate continued exposure to morbillivirus among northern GoM cetaceans since the first detection of this virus in the early 1990s.

AB - The potential role of morbillivirus was evaluated in the deaths of > 1100 bottlenose dolphins Tursiops truncatus and other small cetaceans that stranded from February 2010 through July 2014, during the northern Gulf of Mexico (GoM) unusual mortality event (UME). Morbillivirus analysis was carried out on 142 live or freshly dead cetaceans and results were combined with samples from 102 live, free-ranging bottlenose dolphins sampled during capture-release health assessments conducted from 2011 to 2014. Polymerase chain reaction (PCR) testing for morbillivirus showed that 9.9% (14/142) of the stranded cetaceans and 1% (1/83) of the free-ranging live dolphins were positive for dolphin morbilliviral (DMV) RNA. In contrast, previous DMV dolphin die-offs had DMV detectable by PCR in 61 to 97% of animals tested. Histologic findings consistent with morbillivirus infection, including lymphoid depletion, bronchointerstitial pneumonia, syncytial cell formation, or meningoencephalitis, were found in 6.6% (9/136) of the cetaceans that underwent histologic examinations. Serological analysis using a virus neutralization assay found that 29% (5/17) of live stranded and 23% (23/102) of live free-ranging bottlenose dolphins had titers of 64 or greater for cetacean morbillivirus, indicating prior but not necessarily recent exposure to morbillivirus. Current findings suggest that DMV infection, although present in the northern GoM, was sporadic and occurred at low levels and therefore was not the primary cause of the northern GoM UME. Confirmation of DMV infections and existing DMV titers demonstrate continued exposure to morbillivirus among northern GoM cetaceans since the first detection of this virus in the early 1990s.

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KW - Strandings

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Evaluation of morbillivirus exposure in cetaceans from the northern Gulf of Mexico 2010-2014

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