Whale feces
Whale feces, the
In addition to feces, the digestive system of sperm whales produces ambergris, a solid, waxy, flammable substance of a dull grey or blackish color which can be found floating on the sea or washed up on the coast.[3]
Description
Part of a series on the |
Carbon cycle |
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Whales excrete plumes of liquid feces that are
Ecological significance
Whales transport more nitrogen through their feces in the Gulf of Maine than all of the rivers in that system combined.
— Briana Abrahms[7]
Nutrient cycling and carbon sequestration
One of the crucial roles of whale feces is in
The phenomenon of whales defecating near the water's surface reverses the typical flow of nutrients in the ocean's
A study in the
The study assumes that whales tend to defecate more commonly in the upper part of the water column, which they frequent for breathing; additionally the feces tend to float. Whales feed at deeper levels of the ocean where krill is found.[1] The fecal action of whales thus reverses the usual flow of nutrients of the ocean's "biological pump" due to the downward flow of "marine snow" and other detritus from surface to bottom. The phenomenon has been termed the "whale pump".[2]
The Gulf of Maine study also found that the view of whales and other marine mammals as competitors for fishing, advocated by some nations, is incorrect as whales play a vital role in maintaining the productivity of phytoplankton and consequently the fish. Culling marine mammal populations threatens the nutrient supply and the productivity of fishing grounds.[2]
In addition, the feces of krill-eating whales is rich in iron.
A study of the Southern Ocean found that whales not only recycled iron concentrations vital for phytoplankton, but also formed, along with krill, a major source of sequestered iron in the ocean, up to 24% of the iron held in the surface waters of Southern Ocean. Whales formed part of a positive feedback loop and if whale populations are allowed to recover in the Southern Ocean, greater productivity of phytoplankton will result as larger amounts of iron are recycled through the system.[10]
Accordingly, whales are referred to as "marine ecosystem engineers".[11]
A study conducted in the
Whales, along with other large animals, play a significant role in the transport of nutrients in global ecological cycles. Population reduction of whales and other large animals has severely affected the efficacy of pump mechanisms which transport nutrients from the deep sea to the continental shelves.[13]
Whale feces as indicators of health and ecology
Species | Nitrogen excreted (kg/day) | |
---|---|---|
Baleen whales | ||
Right whale | 15.9 | |
Humpback whale | 9.42 | |
Fin whale | 15.0 | |
Sei whale | 8.32 | |
Minke whale | 2.94 | |
Toothed whales | ||
Pilot whale | 0.036 | |
Atlantic white-sided dolphin | 0.15 | |
Common dolphin | 0.09 | |
Harbour porpoise | 0.05 |
Whale feces contain DNA, hormones, toxins and other chemicals which can give information on a number of aspects of the health, natural history and ecology of the animal concerned. Feces have also provided information on the bacteria present in the gastro-intestinal tract of whales and dolphins.
Indicator for diet composition
A 2016 research study used fecal analysis of wild orcas, which spent the summer season in the Salish Sea, for quantitively estimation of prey species. The analysis was consistent with earlier estimates based on surface prey remains. The study found that salmonids comprised over 98.6% of the identified genetic sequences with Chinook and Coho salmon species as the most important prey species.[14]
As indicator for population decline
A research study, published in 2012, on impacts of overfishing and maritime traffic on a wild population of the Southern Resident Killer Whales of the western seaboard of North America, was based on the chemical analysis of fecal specimens of orcas. The study aimed to find out the reasons for orca decline for which three causes were hypothesized - disturbance by boats and ships, lack of food, and, long-term exposure of toxins which accumulate in whale fat, namely DDT, PBDT and PCB.[15]
Fecal samples of orca were detected with the help of a trained spotter dog, a black
The fecal samples were analyzed over time and co-related to boat densities over time and the quantity of Fraser River Chinook salmon, the main constituent of orca diet in those regions. Boat densities and the salmon abundance over time were estimated independently.[16] Glucocorticoids in orcas rise when the animal faces psychological tension or starvation. The study found that prey is maximum in August, at which time, boats are most abundant. Conversely, the availability of salmon was minimum in late fall when the level of marine boat traffic was also the least. Glucocorticoid levels were highest in the fall when there was a shortage of prey and maximum during August at the height of availability of food.[16]
Similarly,
Biodiversity indicator
An analysis of feces of two dolphin and one whale species led to the discovery of a new species of Helicobacter, namely Helicobacter cetorum, the bacteria being associated with clinical symptoms and gastritis in the cetaceans.[17]
See also
References
- ^ PMID 20949007. e13255.
- ^ a b c d e f Brown, Joshua E. (12 Oct 2010). "Whale poop pumps up ocean health". Science Daily. Retrieved 18 August 2014.
- ^ "Ambergris". Encyclopaedia Britannica (online). Retrieved 11 April 2019.
- ^ Keim, Brandon (9 August 2012). "The Hidden Power of Whale Poop". Wired. Retrieved 21 August 2014.
- ^ a b c d e Robinson, Sarah (12 December 2012). "Everybody Poops -- Even Whales". DiscoveryNews. Retrieved 21 Aug 2014.
- ^ Yehle, Kaitlin (4 August 2020). "Just Another Day Collecting Whale Poo". Ocean Wise's AquaBlog. Retrieved 15 February 2022.
- ^ Abrahms, Briana (1 June 2012). "The Importance of Whale Poop: An Interview with Joe Roman". Conservation Connections. Retrieved 14 April 2015.
- ^ Campbell, Mike (22 June 2011). "The role of marine plankton in sequestration of carbon". EarthTimes. Retrieved 22 August 2014.
- ^ a b c Ratnarajah, Lavenia; Bowie, Andrew & Hodgson-Johnson, Indi (11 August 2014). "Bottoms up: how whale poop helps feed the ocean". Science Alert. Retrieved 22 August 2014.
- .
- doi:10.1890/130220.
- ^ Sazima, Ivan; Sazima, Cristina; Silva, José Martins (2003). "The cetacean offal connection: Feces and vomits of spinner dolphins as a food source for reef fishes". Bulletin of Marine Science (abstract). 72 (1). Miami. Retrieved 26 April 2015.
- ^ Christopher E. Doughty, Joe Roman, Søren Faurby, Adam Wolf, Alifa Haque, Elisabeth S. Bakker, Yadvinder Malhi, John B. Dunning Jr., and Jens-Christian Svenning. Global nutrient transport in a world of giants. PNAS, October 26, 2015 DOI: 10.1073/pnas.1502549112
- PMID 26735849.
- PMID 22701560.
- ^ a b c d e "Causes of decline among Southern Resident killer whales : Research overview". Center for Conservation Biology. University of Washington, Seattle. Retrieved 10 April 2015.
- PMID 12843010.