Kemp’s Ridley Sea Turtle
|At-Risk Populations in the Gulf of Mexico: Kemp’s Ridley Sea Turtle and the Bottlenose Dolphin|
- Kemp’s Ridley Sea Turtle
Even before the Deepwater Horizon oil spill in the Gulf of Mexico in 2010, the Kemp’s ridley sea turtle was already highly endangered.1 Of course, the spill did not help. While these turtles are highly migratory, the Gulf of Mexico is one of their favorite habitats.1 In the summer, female sea turtles return to the beaches where they were hatched to lay their eggs.1 Females lay eggs every one to three years after the age of 10–12.1 Turtles lay their eggs on the beach, not in water, so when the young turtles hatch, they must make their way from the beach down to the water. Even in the best of circumstances, there are many predators and many turtles do not make it.1 The 2010 oil spill in the Gulf not only affected adult turtles, but it also greatly exacerbated the dangers of hatching. Because exposure to oil is often fatal to sea turtles, young turtles that encountered oil on the beach or in the water would have been in great danger.2 Environmental groups were able to relocate many sea turtle eggs to other beaches, but many eggs remained in the area of the oil spill.2
What are the long-term effects of the oil spill on Kemp’s ridley sea turtle populations?
On the left is a typical graph for the survivorship curve of a Kemp’s ridley sea turtle, and on the right is what it might look like for the cohort born during the Gulf spill.
Question 1. Please sketch the curve for the graph on the right.
Sea Turtle Survivorship Curve—Born Before Spill Sea Turtle Survivorship Curve—Born During Spill
Question 2. Briefly analyze your graph. Which part shows the effect of the oil spill on this cohort? Define “cohort” in your own words.
|Effects of the oil spill on this cohort is displays the lesser surviving young. The death rate is higher in the young after the oil spill than prior to the oil spill. Cohort: Set/Group of a population and or species all born at the same time.|
To help analyze what this means for the future of the Kemp’s ridley sea turtle, we have constructed an age pyramid. On the left is a typical age pyramid for Kemp’s ridley sea turtles, and on the right is what it might look like in 2016.
Question 3: Please fill in the rest of the pyramid on the right.
Sea Turtle—Age Pyramid Before Spill Sea Turtle—Projected Age Pyramid (2016)
Question 4. Briefly analyze the age pyramid. What features show the effect of the Gulf oil spill? How are young turtles (0–19) affected in particular? Predict what this might mean for the future of Kemp’s ridley sea turtles.
|There was a population decrease of young turtles because not many were hatched. There was also a high mortality rate. The number of turtles that survived till the age 45-69 were even more fewer than before the spill. Young turtles between ages 0-19 were faced out since none were hatched according to the graph. This means that in the future, there is a chance that Kemp’s ridley turtles will be extinct as the young ones age and die.|
Question 5. Was the oil spill a density-dependent or a density-independent factor for the sea turtles? Briefly explain.
|Independent Factor is one that will effect a population the same whether the population is big or small such as the BP oil spill.|
- Bottlenose Dolphins
Bottlenose dolphins spend much of their time far out to sea, and thus were less likely to come into direct contact with the oil spill. However, dolphins are mammals and must surface to breathe, which brought many dolphins into direct, and often fatal, contact with oil.2 Another problem for bottlenose dolphins was food scarcity and contaminated prey.4 Dolphins are carnivores, feeding primarily on fish, shrimp, and squid.3 The oil from the spill contaminated the dolphins’ food source and caused drops in the numbers of animals they could eat.
How have these two risks affected the dolphin population?
Bottlenose dolphins are thus facing two different risks from the oil spill: coming into contact with oil through surfacing and food scarcity. Both of these risks will have the effect of limiting the population size.
Question 6. Is the first risk—direct contact with oil—an example of a density-independent or density-dependent regulating factor? Explain.
|Density-Independent, due to oil spill being a density independent factor.|
Food scarcity, the second risk, affected the number of dolphins the Gulf of Mexico can support. This number is called the [Question 7. Fill in the missing term _record dolphin die off]. If the population of dolphins was well below the [Question 8. Use the same term as Question 7. _record dolphin die off]before the spill, the population would have been [Question 9. Select the correct answer increasing / decreasing / steady].
Question 10. Describe the effect of the lowered __record dolphin die off_ [use the same term as in questions 7 and 8 above] on the growth of the dolphin population. Is the population likely to be increasing, decreasing or steady? Why?
|Decreasing, due to the impact of oil on organs have long lasting results.|
Question 11. Is this an example of a density-dependent or density-independent regulating factor? Explain.
|It is a density independent regulating factor since the record dolphin die off was already on the decline and will continue declining regardless of the death of their source of food.|
Note: The effects of the oil spill on these two species are real, but the data are hypothetical.