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A Story of Dramatic Conservation Effort: Saving the Vaquita Porpoise (Phocoena sinus) from Extinction

By Chelsea Black, SRC intern

It has been clear for several years that the vaquita porpoise (Phocoena sinus) is in danger of extinction, but only recently has the plight of this species received global attention. The vaquita is the most critically endangered marine mammal in the world and is endemic to the northern Gulf of California, Mexico (Rojas-Bracho, Reeves & Jaramillo-Legorreta, 2006). Genetic analyses and population simulations suggest that this species has always maintained a small population size (Rojas-Bracho et al., 2006), but accidental deaths caused by gillnet fishing gear have been the primary reason for their rapid demise (Jaramillo-Legorreta et al., 2007). Between the years of 1997 and 2015, the species experienced a population decline of 92% (Taylor et al., 2017). Population assessments estimated the population size of the vaquita to be at an alarming number of 60 in 2015, which then dropped to a total of 30 individuals by 2017. Over the past three years there have been dramatic efforts to save the vaquita from what seems like their inevitable extinction, which could be as early as 2018 according to the World Wildlife Fund.

Local fishermen in Mexico’s Gulf of California target the critically endangered fish, totoaba (Totoaba macdonaldi), for its swim bladder. The swim bladder is considered a delicacy in parts of Asia, selling for as much as $10,000 per kilogram (Mosbergen, 2016). It is in these gillnets meant to capture totoaba that vaquita become bycatch and eventually drown. In 2016, the International Whaling Commission approved emergency measures to permanently ban gillnet fishing from the vaquita’s range, remove existing gillnets, and suppress the illegal trade of totoaba (Mosbergen, 2016). However, scientists fear the removal of gillnets is not sufficient enough to save the remaining vaquitas, considering their extremely low population numbers. In response, active measures have been taken in an attempt to help save the species.

In June 2017, Mexico announced plans to use trained dolphins to help corral the remaining porpoises into a protected breeding sanctuary (“Mexico to use Dolphins,” 2017). The dolphins, previously trained by the US Navy to search for missing SCUBA divers, are trained to locate and herd the vaquitas to a marine refuge where they would ideally repopulate in safety. Unfortunately, the use of trained dolphins was not successful. The government then put together a team of marine mammal experts to go into the field and capture as many vaquitas as possible. To help with the conservation of the vaquita, the Mexican government created the Consortium for Vaquita Conservation, Protection, and Recovery (VaquitaCPR) to implement an action plan to prevent the extinction of the species. This plan is arguably the most dramatic conservation effort to date, but scientists are skeptical of how successful the program will be.

The rescue plan of VaquitaCPR includes four phases. Phase one involves locating and rescuing individuals followed by an evaluation of their suitability for human care. Phase two involves housing the vaquita in a marine sanctuary where, during phase three, the vaquitas breed in captivity. Finally, phase four is the release of the individuals back into the wild, and the ultimate goal of the entire project (“Rescue Efforts”).

In October 2017, Mexico announced the successful capture of a six-month old vaquita calf that was quickly released back into the wild because it was still dependent on its mother. This was the first ever capture of a vaquita, and left scientists optimistic that the goal of the VaquitaCPR team was indeed feasible (“New Recovery Project,” 2017). With a successful capture under their belt, the team of marine mammal experts set out to capture another vaquita, with the hopes of transporting it into the reserved area. 

Figure 1: The first capture of a vaquita (source: vaquitaCPR.org)

In early November 2017, the VaquitaCPR team caught a second vaquita, but unfortunately this was not a success story. The mature female was captured and transported to a floating sea pen where veterinarians determined the animal was under extreme stress, and despite life-saving efforts the vaquita died within a few hours (Gaworecki, 2017). With such few individuals left, the loss of a female of reproductive-age is one of catastrophic proportion. Currently, the VaquitaCPR project has ceased all active measures to capture vaquitas, without ever successfully reaching phase two of their initial rescue plan.    

Figure 2: Floating sea pen for captured vaquitas (source: Kerry Coughlin/National Marine Mammal Foundation).

The unfortunate truth could be that the vaquita porpoise is too stress-intolerant to endure capture and transportation, and this would make rebuilding their population in captivity impossible. Conservation efforts to save the remaining vaquitas will shift to removing all gillnets from their habitat, and a stricter enforcement of the illegal fishing of totoaba. The number of boats setting these particular gillnets in the vaquita’s range is minimal, and with the new permanent ban set by the Mexico government, hopefully these mitigations are sufficient to relieve pressure on the species. The success or failure of saving the vaquita from the brink of extinction will be a precedent in marine mammal conservation.  

References

Gaworecki, M. (2017, November 08). Endangered Mexican Vaquita Dies After Rescue Effort. Retrieved November 20, 2017, from https://www.ecowatch.com/vaquita-dies-after-rescue-effort-2507794284.html

Jaramillo-Legorreta, A., Rojas-Bracho, L., Brownell Jr, R. L., Read, A. J., Reeves, R. R., Ralls, K., & Taylor, B. L. (2007). Saving the vaquita: immediate action, not more data. Conservation Biology, 1653-1655.

Mexico to use dolphins to save endangered vaquita porpoise. (2017, July 1). Retrieved November 20, 2017, from https://phys.org/news/2017-07-mexico-dolphins-endangered-vaquita-porpoise.html

Mosbergen, D. (2016, December 28). ‘Risky’ Last-Ditch Attempt To Save The World’s Smallest Porpoise. Retrieved November 20, 2017, from https://www.huffingtonpost.com/entry/vaquita-mexico-capture-plan_us_58635c2be4b0de3a08f69948

New recovery project captures vaquita porpoise calf. (2017, October 20). Retrieved November 20, 2017, from http://mexiconewsdaily.com/news/new-recovery-project-captures-vaquita-calf/

Rescue Efforts. (n.d.). Retrieved November 20, 2017, from https://www.vaquitacpr.org/rescue-efforts/

Rojas-Bracho, L., Reeves, R. R., & Jaramillo-Legorreta, A.  (2006). Conservation of the vaquita Phocoena sinus. Mammal Review, 36(3), 179-216.

Taylor, B. L., Rojas‐Bracho, L., Moore, J., Jaramillo‐Legorreta, A., Ver Hoef, J. M., Cardenas‐Hinojosa, G., … & Thomas, L. (2017). Extinction is imminent for Mexico’s endemic porpoise unless fishery bycatch is eliminated. Conservation Letters, 10(5), 588-595.

Use of local ecological knowledge to investigate endangered baleen whale recovery in the Falkland Islands

By SRC intern, Molly Rickles

In this study, Frans and Auge looked at baleen whale population in the Falkland Islands in the post-whaling era. Due to whaling in the early 1900s, whale populations here have decreased dramatically, but recent observations suggest that their numbers are currently increasing. However, there is a lack of population data, making this study critical.

Methods

The main goal of the research was to understand how well the baleen whale population is doing post-whaling in the Falkland Islands. To do this, the scientists used LEK, or local ecological knowledge. In this method, interviews were conducted with local Falkland residents to determine how often whales are sighted off the coast. The residents were asked to draw pictures on a map of where they saw the whales. Each interview was given a reliability rating based on how confident and detailed the account was. This data was used to supplement the existing International Whaling Committee data from the whaling era. With the combined data, the researchers aimed to look at when the whale sightings were most common and to determine the most common places where the whales were seen.

SRC pic 1

Results

Over the course of the study, 3,842 whale sightings were recorded and Falkland residents recorded 631 of those observations. Since LEK is not always a reliable method, it was determined that about 70% of the observations recorded using LEK were reliable, and could be used in the study. It was found that in the 1970’s, no whale sightings were recorded because it was right after the whaling era. By the early 2000’s, the number of whale sightings increased 11-fold, showing a population recovery. Out of all of the baleen whale species, sei whales (Balaenoptera borealis) showed the largest increase since the whaling era, and are currently the most abundant whale species in the Falkland Islands. It was also determined that baleen whales are most common during the summer and fall months, based on recorded sightings.

Outcomes

This study was an important step in understanding baleen whale populations and how they have recovered since the whaling era. Using LEK allowed the scientists to get population data even when there was a lack of empirical data, which is a new technique that hasn’t been used regularly in other studies. This new technique allowed the researchers to determine baleen whale populations in the Falkland Islands, which can be used as a reference for the future of whale conservation. This is especially critical now because of the increasing threats to whales, such as increasing economic development in the Falkland Islands. Since the whales have recovered from the whaling era, it is now important to keep the population healthy, and this study provides an important monitoring tool for future conservation efforts.

SRC pic 2

References

Frans, V.F., & Auge, A. A. (2016). Use of local ecological knowledge to investigate endangered baleen whale recovery in the Falkland Islands. Biological Conservation, 202, 127-137. dio: 10.1016/j.biocon.2016.08.017

Conservation of the Critically Endangered Hawaiian Monk Seals

by Laurel Zaima, RJD Intern

Education is always the first step towards the conservation and recovery of a species. The endangered species list intends to bring awareness and education to the public about species that are on the brink of extinction. There are several different classifications that explain the population status of species: least concern, near threatened, vulnerable, endangered, critically endangered, extinct in the wild, and extinct (Monachus Schauinslandi). One of the most primitive of all living phocid species, the Hawaiian Monk Seal, is categorized as critically endangered. In the mid-19th century, hunters targeted the Hawaiian Monk Seals for their precious skins and oils. The Monk Seal populations were hit so hard that they have yet to make a significant recovery. However, it is still possible for the Hawaiian Monk Seal populations to bounce back if the public is informed about the importance of conserving this species and the methods of successful conservation.

One of the reasons that hunters were capable of killing a significant amount of the Hawaiian Monk Seals in the 19th century was due to the seals’ behaviors and their small habitat range. The Hawaiian Monk Seals are an endemic species to the Hawaiian Islands, which means they are native to this chain of islands and they are found no where else on earth (Protected Resources Division).  Their small range of habitat made them an easy target for hunters. Although Monk Seals can travel hundreds of miles into the open ocean, they are not migratory mammals and have a habit of frequenting the same beaches over and over (Protected Resources Division). They also are usually found sleeping on the Hawaiian Island Beaches or in underwater caves, sometimes for days at a time (Protected Resources Division).

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