Tuesday, December 8, 2015

Giant Kangaroo Rat

Giant Kangaroo Rat
Basics of the Kangaroo Rat
The Giant Kangaroo rat, Dipodmys ingenus, is a small rodent with a motely set of features seen in other more common rodents such as the common mouse and pocket mice as well as features of the kangaroo. From head to its long, tufted tail, the giant kangaroo rat is around 5.9in long and weighs about 150 grams. The giant kangaroo rat moves similarly to a kangaroo, using both of its large hind legs to hop around, while its short forearms remain close to its torso.  Other physical features include a short neck, cheek pouches for storing food, and a flat head.  

More recent estimates of the Giant Kangaroo Rat's distribution hints towards the species' more grim state of existence.  Compared to the aforementioned estimates from the 1950's, Giant Kangaroo Rat populations have been fragmented into 6 primary division, each of which is broken down into a total of 100 isolated habitats.

Geographic and Population Changes

This rat lives in burrows often in mounds of sand or soft soil. The soft material is necessary because burrowing is difficult for the rodent due to its very short front arms. Often times the Kangaroo rat will move its residency to a different burrow depending on the population density of its environment. To learn more about these burrows check out this link: 

http://www.cdpr.ca.gov/docs/endspec/espdfs/krattrax.pdf

Figure 1 shows that Kangaroo rats living in environments of high population density are more likely to stay in their natal burrow until their siblings or mother rat kicks them out of the nest. Low population density areas are the opposite for these rodents and if burrows are open nearby, some kangaroo rats will leave these nest as early 11 months after birth. The reproductive ability of Giant Kangaroo Rats are largely dependent on two factors, population density and availability of food. Since the population density has clear effects on Giant Kangaroo Rat population dynamics, Figure 1  is important to understand, specifically in how population density often mirrors plant productivity.
Looking back to known population distributions and accounts of Giant Kangaroo Rat inhabitants as early as in the 1950s, the animal was well distributed across an expansive section of California and parts of Nevada.  Likely due to the land structures capability to allow Giant Kangaroo Rat's to build burrows, the animal was often found, to name a few landmarks, along slightly sloped grounds near the west of the San Joaquin Valley, towards the south near the Tehachapi Mountains, North of Merced County, and occasionally on steeper grounds near Tumey Hills and Panoche Valley.  Throughout this general area, the estimated habitat for the Giant Kangaroo Rat was, at most, 631,724 hectares[pg. 85].

Figure 1: A car graph showing the population density of the Giant Kangaroo Rat over 9 years


Listing Date and Type of Listing

After the enactment of the Endangered Species Act and the research done on declining Giant Kangaroo Rat populations, the animal was listed as an endangered species on January 5th in 1987.  As mentioned in Section 4 of the ESA, due to the fragmentation and overall decrease to 1.8% of their natural habitat, the species was clearly“...in danger of extinction throughout all or a significant portion of its range...” Figure 2 shows a map of the isolated populations of Giant Kangaroo Rats in California in 1995.

Figure 2: A Map showing the populations of Giant Kangaroo Rats in Central Calidornia.
           
The U.S Fish and Wildlife Service finalized a recovery plan for the species on September 30th, 1998 after identifying population dynamics and probably reasons for the species' endangerment.  Fortunately, the implementation of the Recovery Plan for Upland Species of the San Joaquin Valley, California has turned around the state of the Giant Kangaroo Rat.  As mentioned throughout sources discussing the Giant Kangaroo Rat's progress on the U.S Fish and Wildlife Service, specifically in the Implementation Progress Table and the 5-year review, posted on February 16th, 2010 , the animal has been down-listed to Threatened, despite the Environmental Conservation Online System's “Listed FWS/Joint FWS and NMFS Species and Populations with Recovery Plans (sorted by Listed Entity)” table still stating that the species is endangered.


Cause of listing and Main threats to its continued existence

Compared to most other reasons, loss of habitat and habitat destruction were the prime reasons for the Giant Kangaroo Rat being listed as endangered.  Prior to the early 1970's, most of the animal's range had been left alone from human, industrial interests and effects.  It wasn't until the development of the San Luis Unit of the Central Valley Project and the California Aqueduct of the State Water Project that the Giant Kangaroo Rat's native environment began to shift.    By 1979, nearly all of the natural areas, specifically gentle slopes, were taken over for agricultural irrigation as most of the aforementioned areas were publicly owned. 

Description of Recovery Plan

The  Recovery Plan for Upland Species of the San Joaquin Valley, California submitted by the U.S fish and Wildlife Service formally recognizes that the full recovery of the Giant Kangaroo Rat will be successfully accomplished when “the three largest populations (western Kern County, Carrizo Plain Natural Area, and the Panoche Region) and the populations in the Kettleman Hills, San Juan Creek Valley and Cuyama Valley are protected and managed appropriately” [pg. 94].  More specifically, after more accurate models regarding their population changes, the Giant Kangaroo Rat's primary populations must be protected and that local populations are able to self-sufficiently maintain stable birthrates and decreased mortality rates.  It is recognized that, generally, breeding factors aren't currently harming the species, it is imperative that the species' is allocated larger, protected areas to ensure survival after any random catastrophic event.

Several actions have already been taken, following the outline laid out by the recovery plan. One of which is familiarizing land owners, who would normally have conflicting interests with preserving Giant Kangaroo Rat populations, with the beneficial effects that can come about with the recovery of the these populations. In addition to just informing land owners, to fulfill the goal of securing land for the Giant Kangaroo Rat, an ongoing effort is being made to coordinate older farmlands and eventually convert them to land suitable for the endangered species.

What can you for to save the Giant Kangaroo Rats

If you are on private property that can be suitable to house a burrow of Kangaroo rats, make it known to the FWS that you can house these adorable creatures. If you don't own a property that could house kangaroo rats there's not much you can do. However with the recovery program in place, the Giant Kangaroo Rat will be able to thrive in the San Joaquin Valley.


Figure 4: A Giant Kangaroo Rat jumping out of its burrow.


Sources
"Species Profile for Giant Kangaroo Rat (Dipodomys Ingens)." Species Profile for Giant Kangaroo Rat (Dipodomys Ingens). US Fish and Wildlife Service, 21 May 2010. Web. .

Williams, Daniel F., Elllen A. Cypher, Patrick A. Kelly, Karren J. Miller, Nancy Norvell, Scott E. Phillips, Cheryl D. Johnson, and Gary W. Colliver. "Recovery Plan for Upland Species of the San Joaquin Valley, California." (n.d.): n. pag. Environmental Conservation Online System. US Fish and Wildlife Service, 30 Sept. 1998. Web. .

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Monday, December 7, 2015

The Leatherback Sea Turtle

The Oceans Ancient Giant
(Dermochelys Coriacea)
By: Ardea Batiste


The leatherback sea turtle is the oldest and biggest of sea turtle species, and it is in imminent danger of extinction. This sea turtle is extremely unique, mysterious and powerful.  Because of its migratory nature, they have been found traveling all over the world's oceans, with a range so vast that scientists have found it challenging to study them.  Until recently, the leatherback has thrived throughout the oceans since the time of the dinosaurs. Since the 1970's, the Leatherback population has been in decline.  Presently, they are critically endangered because of changes in habitat, pollution, and current fishing practices. If nothing changes, it is estimated that this species will face extinction in the next 20 years.  So what makes them so distinct? And why after so long are they now endangered? 

Appearance:

Comparison of Different Sea Turtles 
The leatherback sea turtle is the largest and most unique of all sea turtle species. These huge, ancient creatures can reach over six feet tall and weigh as much as 2,000 pounds.  With a flipper span up to 3 meters (9.85 feet), their front flippers are paddle shaped, clawless, and proportionally larger then other sea turtles. The leatherback is the only sea turtle that doesn't have a hard bony shell, which is one of the most distinguishable aspects of this species of turtle.  Instead, they have a thick, tough layer of hard, leathery, scaled skin covering a framework of dermal bones.  This leathery shell characteristic is where the leatherback sea turtle gets its name.  They have seven ridges running lengthwise along their back, which are usually black, but may be dark brown or dark grey, with a varying amount of pinkish white spots.  Their underside is mottled pink, white and black, with adult females having a characteristic pink pontoon on their head. They have two down curved projections on their upper jaw, and their lower jaw is hooked backwards. (The picture to the right shows the leatherback’s differences in appearance in comparison to other sea turtles.)

Prey:

Inside of a Leatherbacks Mouth 
Leatherbacks primarily feed on jellies, but are also known to eat crabs, fish, sea urchins, squid, crustaceans, tunicates, algae and seaweed.  They can dive to depths of up to 1,000 meters (3,300 feet) in search of food.  This depth was recorded by turtles wearing satellite telemetry devices.  Only two other air breathing species are known to surpass this remarkable diving depth:  the sperm whale and the elephant seal.  With a diet consisting mainly of not particularly nutritious jellies, the leatherback must eat almost its entire weight in jellies each day.  In order to digest this large amount of food, the insides of their mouth (all the way to their stomach) is lined with spikes.  These spikes break down the food as it is being swallowed, and makes the inside of the leatherbacks mouth a truly terrifying sight. (You can see this in the picture to the above) Leatherback turtle feeding (start at 0:20)

Taxonomy:

Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Testudines
Family: Dermochelyidae
Genus: Dermochelys
Species: coriacea

The leatherback sea turtle is the only species left in the Dermochelyidae family, with all other species that were once part of that family now extinct.  With its evolutionary roots tracing back to thxe age of the dinosaurs, this ancient species has been on earth far before humans.  This ancient species is the last remaining member of a family that has existed for over 100 million years. Presently, all other sea turtles are part of the Cheloniidae family, classified by the similar characteristics of their small, hard shell.  The leatherback is classified separately because of the unique appearance and structure of their outer shell.  However, the leatherback is similar to the species of the Cheloniidae family in behavior, and has shown similarities in both morphological and biochemical studies. 

Life History:


The leatherback sea turtle lives a long life traveling through the ocean waters.  Their exact life span is not known for certain.  Some scientists conclude that these sea turtles can live as long as 100 years, while others have a lower prediction of a thirty year life span, but it is most commonly believed that they live approximately fifty years.  Along with the uncertainty of the leatherbacks life span, there is also a discrepancy as to when they reach sexual maturity.  Many scientists estimate sexual maturity between the ages of six and ten.  However, others believe that it is as late as sixteen, or as early as three years old.  
Nesting Leatherback
Once mature, females and males breed in the ocean every 2-3 years.  Like most sea turtles, leatherbacks make their nests on sandy beaches. But unlike most sea turtles who nest during the spring and summer months, leatherbacks nest in fall and winter.  When the female is ready to lay her eggs, she pulls herself up the beach and digs a nest for herself.  Leatherbacks usually nest during the night and return to the ocean in the morning, but this is not always the case.  After she lays her eggs, she covers the nest with sand, makes a large disturbed area to conceal the nest from predators, and returns to the ocean.  Female leatherbacks can lay anywhere between 1-11 clutches of eggs per season.  Each clutch can contain 50-100 fertilized eggs, and within 55-75 days later, the babies begin to hatch.  
Leatherback Hatchlings Emerging From Their Nest
The task of emerging from the nest is not easy for the hatchlings. The whole group works together to break free.  A process that can take several days.  These hatchling are 2-3 inches in size, which is a remarkable reality considering the giant size they will grow to become when fully mature.  Hatchlings are also black with light spots like their elders.  
Leatherback Hatchling
 Yet, unlike the scaleless skin of the adult leatherback, hatchlings are born covered in small beadlike scales.  Once they break free from the nest, they must make their way to the ocean.  In order to find the ocean, they orient themselves with the bright reflection of sun on the water.  This journey from nest to ocean is very difficult, and many of these vulnerable hatchlings do not survive due to a variety of reasons, such as predation or simple exhaustion.  The hatchlings that survive the trek to the ocean, remain in warm tropical waters until they have grown enough to survive colder waters. 

 Click this link to watch leatherback hatchlings make their way to the ocean.

Adult Leatherback Swimming

Geographic: 

Leatherback sea turtles are the most migratory reptile, and one of the most migratory animals,  traveling more then 16,000 kilometers (10,000 miles) each year in search for food.  This vast migration pattern makes them very hard to study, which is not helped by the fact that they do not survive in captivity.  The leatherback sea turtles' range is hard to define because of how migratory they are. Leatherbacks are known as pelagic (open ocean animals), but they can also be found foraging for food in coastal waters.  This vast range is possible because of the leatherbacks’ insulant abilities, allowing them to survive in colder water then any other sea turtle. 
Swim with a leatherback sea turtle (Start video at 0:50)

Population:  

The male turtles may never return to land after they hatch, and the females only return to lay their eggs.  This makes finding an accurate estimation of their population very challenging.  There is no estimate on the size of the male leatherback population, but it is estimated that there are approximately 20,000 - 30,000 nesting females alive today ("Leatherback Turtle." WWF).
Number of Leatherback Nests at Jamursba Medi, Indonesia 
Since the 1970s the leatherback population has been in a steady decline.  The Pacific Leatherback population is declining faster then the Atlantic Leatherback population, but scientists believe that the Atlantic population will begin to decrease at a faster rate. It is estimated that overall, the global population of leatherback sea turtles has declined approximately 40% over the past 3 
generations (Wallace). The Graph above shows this decline at a popular nesting beach in Indonesia.  This is just one example but most beaches show a similar decline. 

Listing Date and Type of Listing:

The leatherback sea turtle was listed as endangered throughout its entire range under the Endangered Species Act (ESA) on June 2nd, 1970.  This means that it is protected wherever it is found in nature.  In 1982, it was also listed as endangered on the International Union for Conservation of Nature (IUCN) Red List.  In the year 2000, the listing was raised from endangered to critically endangered on the ICUN red list. 

  • Listed as endangered under the ESA in 1970
  • Listed as endangered under the IUCN Red List in 1982
  • Listed as critically endangered under the IUCN Red List in 2000


Main Threats:

Leatherback Sea Turtle Drowned in Fishing Equipment 
The main threats to the leatherback population are: 

  • Coastal Habitat Loss
  • Predation by Feral and Domestic Animals
  • Incidental Catch or Bycatch
  • Light and Chemical Pollution
  • Entanglement and Ingestion of Debris
  • Egg Poaching and Disturbance of Nests

Most wild animals face the danger of habitat loss, and a large number of these animals have also been hunted for various  resources.  The leatherback is no exception to being exposed to these dangers, and it is because of humans that their population is in grave danger.  The increase in human activity on the beach, both recreational and commercial, restricts the amount of safe nesting habitat.  The risk of nest disturbance and the crushing of nests increases with the growth in the human population.  Nests are vulnerable to these following situations, all influenced by the presence of humans: vehicular driving on beaches, beach construction, and predation by domestic animals.

 Presently, the single greatest threat to the leatherback population is incidental capture by commercial fisheries.  Incidental capture, also called bycatch, is where non-target animals are caught in fishing equipment.  These animals often die and are discarded back into the ocean.

Longline
Gill-Net
Two of the worst commercial fishing strategies are: the gill-net, the longline.  These fishing strategies are non-selective, which results not only in the mass capture of fish, but also in the un-necessary death of many marine animals. This is especially a problem for species who already have greatly depleted populations, such as the leatherback.  Although the leatherback can hold its breath for up to five hours while resting, this amount of time is greatly shortened when they are active under stress.  Thus, getting caught in fishing equipment puts a great strain on the animal as they struggle to free themselves, which causes them to drown relatively quickly. Hundreds of leatherback turtles drown annually because of these non-selective fishing methods. Other methods of commercial fishing are available.  The purse seine, for example, is only responsible for 1% of the worlds total bycatch.  In order to protect the heath and function of the marine ecosystems, and animals like the leatherback, it is essential that the use of non-selective fishing gear stops. 

 Light pollution is another issue.  I mentioned before how the hatchlings orient themselves with the ocean, by looking at the bright glare of sun on the water.  The increase of human made light along the edge of the beach can disorient the hatchings causing them to orient inland.  This way they never find the ocean and are either crushed by cars, eaten by predators, or they simply die of exhaustion and exposure. 
Jelly V.S. Plastic Bag 
The increase of debris in the ocean causes two problems for these sea turtles.  They can get caught in large amounts of debris, such as abandoned fishing equipment, or they can ingest harmful trash.  Fishing equipment tangled around the turtles, can permanently bind around a part of their body causing deformity as they grow.  This can inhibit movement and ultimately decrease chances of survival.  Plastic bags look very similar to jellies, and animals who feed primarily on jellies, such as the sea turtle, often eat plastic bags by mistake.  The ingestion of plastic is not good for any living creature.  If enough plastic is eaten, it can clog their digestive track and cause them to starve to death.  The chemicals in this waste can also cause sea animals to become sick.

The main cause of the leatherback’s currently diminished population is egg poaching. Egg poaching is less of a problem now, then it was in the past, but it is still considered a problem for the leatherback sea turtle.  Their population was greatly weakened in the past when almost 100% of their eggs would be harvested each year.  

Recovery Plans:

In 1992, and again in 1998, the ESA created two recovery plans for leatherback sea turtles.  The first addressed the recovery of the species in the U.S. Caribbean, Atlantic Ocean and Gulf of Mexico.  The second addressed the recovery of the U.S. Pacific populations of leatherback sea turtles.  The goal of these plans was to delist the species.  In order to delist a species, a set of criteria must be met, insuring that the species is no longer in danger.  Both recovery plans work to protect nesting habitats, marine habitats, and the populations within these habitats.  As part of ESA's recovery plan, they also address how to best work with other countries where the leatherbacks live. 

Protecting Sea Turtle Nests
These recovery plans work to eliminate or reduce the threats to the species.  The ESA acts on a plan through a few major actions such as: informing the public about these threats and what they can do to help, creating and enforcing laws and regulations to further protect the species, and by working to help other countries in their efforts to help.  Unlike some species that can be bred in captivity, the leatherback species does not survive well in captivity.  However, trained professionals have been successful in collecting eggs, hatching them in incubators and then releasing the hatchlings back into the ocean.  This helps to give the young ones a head start.  The work done by the ESA has helped in many ways but this species population is still declining and in need of further assistance.


Personal Action:

Don't Trash the Ocean
With all of the talk about impending extinction and threats to the existing population, it feels good to know that there is something that we can do it help this species that desperately needs our help!  There are many things that individuals can do to help, from simple actions to things that might make take more time. Some of these contributions are the following:

1.  Reduce the amount of trash you make
When you throw things away, they don't just disappear! A lot of this waste actually ends up in the ocean; and much trash, like plastic, may never decompose.  Thus, switching to using paper (which does decompose), or reusing plastic produce/grocery bags, will prevent turtles from coming into contact with plastic and mistaking this discarded waste  as  jellies.  Buy a reusable water bottle, or reuse another bottle (glass Snapple bottles are a good option).  Recycle what you can, so it gets reused instead of dumped into landfills or water sources.  Simply, do anything else you can to reduce the amount of trash you produce.

2.  Watch the Amount of  Chemicals You Use
Everything is connected.  If you spray pesticides on your plants, you may never think they will end up in the ocean, but they can and do.  Similarly, chemicals in cleaning supplies can end up in the ocean through plumbing and sewage. Chemicals that make their way to the ocean can be ingested by small organisms, who are then ingested by bigger ones, and in this way they work their way up the food chain.  Each species up the food chain eats many of the species below them, and incidentally the amount of chemicals magnifies in each species until they become dangerous. This is called Bio-magnification.  So make sure you are using household and gardening products that are environmentally friendly. 

3Support Organizations
There are many organizations that are working to help save endangered species, such as the leatherback sea turtle.  These organizations work to help eliminate bycatch, create safe nesting cites, end poaching, and protect critical habitat.  These organizations often support or implement research on the best ways to help these endangered species.  A few of the organizations that work to help protect wildlife are:
4. Help Reduce Light Pollution
If you live close to a beach, minimize beachfront lighting on nesting beaches during the nesting season by turning off lights, shielding them or directing them away from the beach and by closing blinds and drapes in oceanfront rooms.  If you do not live on a nesting beach, you can send a letter to large beach side establishments or the government official in charge of that area, informing them of the importance of reducing light pollution.

5. Pass This Information On
Don’t let this stop here!  Pass on what you have learned and help spread the word about the dangers this species face and what you can do it help!
Everyone Needs a Snuggle Buddy:)

Sources Cited:

 "Leatherback Turtle (Dermochelys Coriacea)." :: NOAA Fisheries. N.p., 11 June 2015. Web. 06 Dec. 2015.

Recovery Plan for U.S. Pacific Populations of the Leatherback Turtle (Dermochelys Coriacea). Silver Spring, MD: U.S. Dept. of Commerce, National Oceanographic and Atmospheric Administration, National Marine Fisheries Service, 1998. U.S. Fish & Wildlife Service. 2 June 1998. Web.

Lewison, Rebecca L., et al. "Global Patterns Of Marine Mammal, Seabird, And Sea Turtle Bycatch Reveal Taxa-Specific And Cumulative Megafauna Hotspots." Proceedings Of The National Academy Of Sciences Of The United States Of America 111.14 (2014): 5271-5276. Academic Search Complete. Web. 30 Nov. 2015.

"Leatherback Sea Turtles." Dermochelys Coriacea." MarineBio.org. MarineBio Conservation Society, 29 May 2013. Wed. 01 Dec. 2015

"Sea Turtle Migration." SEETurtles.org, n.d. Web. 02 Dec. 2015

"Leatherback Turtle." WWF. World Wildlife Fund, 2015. Web. 02 Dec. 2015

Wallace, B.P., Tiwari, M. and Girondot, M. 2013. Dermochelys coriacea. The IUCN Red List of Threatened Species. Version 2015.1. Downloaded on 02. Dec 2015.

None of these images are mine. All photos were found on google images 

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Sunday, December 6, 2015

Save the Sperm Whales

Save the Sperm Whale 


by Zach Baker




Description and Ecology of Organism


The Sperm whale or “Physeter macrocephalus”  falls under the category of  The  size of the sperm whale is larger than the the average school bus.  They are the only marine mammals with a blowhole that is a-symetrically placed on their heads  and are generally grey in color with white markings around their mouths. Sperm whales have extremely large heads taking up almost half of their body size; and at their largest can grow up to about 60 feet. The sperm whale travels in small pods of around 20 whales, and usually maintain regular family groups. The sperm whale’s diet consists mainly of large squid but will also consume sharks, and other fish. The sperm whale obviously has an interesting name — the name comes from the large amount of fluid held in their heads called spermaceti, and when cooled down turns into a waxy substances that can be used in oil lamps, candles and so on and so forth. This liquid was extremely important in the old days, and Sperm Whales were commercially harvested for it; the whalers at the time mistaked this white fluid as the sperm of the wale, and hence forth came the name


Geographic and Population Changes


The populations of sperm whales are un-known; but since there was un-restricted whaling for about two decades and considering the extremely large amount of whales that were killed during this time period they were most like likely placed on the endangered list even with out an accurate reading. Sperm whales are almost impossible to get an accurate read on population as they generally inhabit waters below 600 feet deep, are able to submerge to around 3k feet deep, and in-habit such a vast area of the globe. The best estimate of the population of Sperm Whales is in between 200k and 1500k.  As you can see the distribution of sperm whales is extremely large and essentially covers the majority of the globe; These whales will travel from about 60 degrees north to about 70 degrees south. Generally, the male sperm whales will travel in groups far more north than the females seeking  out prey; the females generally stay with their calves  in tropical or sub tropical waters.  

Listing Date and Type of Listing


The sperm whale is currently listed globally as endangered on the ESA, and depleted on the MMPA. Because of the inability to get an accurate read on It is assumed that they were  placed on the endangered act due to the extreme amounts of un-regulated whaling that took place before the IWC in 1946 (international whaling commission) initiated regulations to conserve the species. It is estimated that in between 1800 and 1909, close to 700k whales were harvested. It is assumed that the population had decreased exponentially due to the unrestricted whaling in the past. 

Cause of listing and Main threats to continued existence


The main threats to the existence of Sperm Whales include: 

Fishery Interactions:  Sperm whales sometimes are caught in deep sea neats laid out by fishermen; in the case that they break through these nets, they sometimes will either become deformed by the constraints it places on them; or will drown trying to remove these nets. there is also risk of fisherman harming whales as they try and take their catch as prey. 

Anthropogenic Noise: As these marine mammals use sound to communicate, the sound that humans have introduced like large vessels, oil rigs, and even the invention of sonar into the oceans could be harmful to their abilities to communicate and navigate around the seas. No research done on this has been conclusive so there is no conclusive proof that ocean noise affects these creatures. 

Ship Strikes: When sperm whales come up for air after long dives; they are very susceptible to being hit by passing ships. There are numerous accounts of sperm whales becoming very injured and dying after either colliding with a ship; or getting cut by it’s propellors. 

Contaminants and Pollutants:  Contaminants and pollutants that have been found in whale caucuses have been alarmingly high and potentially toxic, including mercury and several toxic metals. Another risk is the large amounts of pesticides leaked into the water such as DDT. Oil Spills are also a large concern for the current Sperm Whale Populations as the oil contaminates food sources and can cause health risks in whales such as Pneumonia.  

Disease: As many of the pollutants found in whales are known to suppress the immune system these mammals become more susceptible to disease . 

Injury:  from Marine Debris: Essentially Human trash; consisting of synthetic plastics that are not biodegradable like plastic bags, bottles, ropes, nets, balloons, rubber etc. When ingested these cause physical blockage in the digestive system, which can lead to death. 


 Predation/Natural Deaths:  This is just the Circle of Life, and the predation of whales by other larger predators. Sperm Whale Calves are consumed by killer whales, and large sharks. 

Whaling:  Even with the IWC’s regulation on commercial whaling has decreased this threat, whaling sad continues and is a direct threat to this species survival. There is currently a ban on whaling; except for in Norway and Iceland (who have objected to the IWC (international whaling commission) and Japan who takes whales for “research”.

Description of Recovery Plan


This information is based off off the “Final Recovery Plan for Sperm Whales” published by the National Marine Fisheries Service, and the National Oceanic and Atmospheric Administration in 2010 and consists of 8 steps. 


1. Coordinate to implement recover actions and maintain the current regulation on sperm whales. 

this would essentially create widespread cooperation of international  governments to maintain the regulations of whaling in their specific waters. As whales are so widely dispersed this is absolutely necessary in the conservation of their species. 


2. Figure out better ways to assess the population of the sperm whale. 

Even though large amounts of energy have been expended trying to figure out the population of sperm whales; it has not been able to give an accurate read. New methods of population monitoring need to be developed in order to achieve  this; in collaboration with many scientists in foreign waters. 

3. determine population discreteness and population structure of sperm whales. 

As there is not a lot of insight on the lives of sperm whales more research must be done on the species. in order to gather this information the recovery plan calls for genetic analysis of whale, the use of telemetry and photographic documentation to track their movements, and find out more information about the social structure of these mammals. 

4.  Conduct risk analysis in each ocean (Indian, Atlantic,Pacific) 
to gain an accurate read into population projection and to eventually to find an estimated risk of extinction 

5.  Identify, Characterize, Protect, and Monitor Habitat Important to Sperm Whale Populations in U.S. Waters and Elsewhere. 

In order to maintain a sperm whale population, the habitats in which they mainly maintain must be preserved as well. 

6. Investigate Causes and Reduce the Frequency and Severity of Human-caused Injury and Mortality. 

7. Monitor Habitat Important to Sperm Whale Populations in U.S. Waters and Elsewhere

8. Maximize Efforts to Acquire Scientific Information from Dead, Stranded, and Entangled Sperm Whales. 

Personal Action? 


To help save these endangered species from commercial harvest and whaoise pollution; we can donate both our time and our money to organizations whose mission is to save the whales. Another simple way is to try harder to keep our oceans clean; by picking up trash at the beach and trying harder not to pollute the water supply by using harsh chemicals and herbicides. see http://www.pacificwhale.org/content/action-center for more information. 


sources: 



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