A recent paper that attempted to correlate pollution levels and body condition in Barents Sea polar bears reports it found body condition of female bears had increased between 2004 and 2017 despite a pronounced decline in summer and winter sea ice extent.
“Unexpectedly, body condition of female polar bears from the Barents Sea has increased after 2005, although sea ice has retreated by ∼50% since the late 1990s in the area, and the length of the ice-free season has increased by over 20 weeks between 1979 and 2013. These changes are also accompanied by winter sea ice retreat that is especially pronounced in the Barents Sea compared to other Arctic areas” [Lippold et al. 2019:988]
This result explains all the fat female polar bear photos coming out of the Svalbard region in recent years. However, it is totally at odds with predictions of catastrophic declines in polar bear numbers in the Barents Sea and assertions that Barents Sea bears are one of the most vulnerable to the effects of global warming (Amstrup et al. 2007; Hamiltion and Derocher 2019; Regehr et al. 2016; Stern and Laidre 2016) due to a dramatic loss of sea ice (see map below). And that is before the high levels of sea ice in the region I’ve been reporting on here, here, here, here, and here.
Prior to this 2019 publication, all we have been provided with are body condition values for adult males (1993-2019) – showing them to have been doing well in recent years with no trend in body condition. Now, after years of loud public hand-wringing from polar bear activists, we find out that all along, adult females have been doing even better in recent years than they were before 2005 when there was more summer and winter ice. Therefore, contrary to expectations, Barents Sea and Chukchi Sea bears have been shown to be thriving with less sea ice – and for Barents Sea bears it’s a lot less ice.
Oddly, the 2019 Lippold paper came to my attention because a paper published last month about ‘space-use’ of polar bears in the Barents Sea (Blanchet et al. 2020), cites Lippold et al. 2019 as evidence that Barents Sea polar bears have not shown signs of “decreases in overall body condition“. Watch the pea…
What Lippold et al. actually say, in their abstract, is this [my bold]:
“Body condition [of adult females], based on morphometric measurements, had a nonsignificant decreasing tendency between 1997 and 2005, and increased significantly between 2005 and 2017.“
Later in the paper (pg. 988), they had this to say [my bold]:
“Unexpectedly, body condition of female polar bears from the Barents Sea has increased after 2005, although sea ice has retreated by ∼50% since the late 1990s in the area, and the length of the ice-free season has increased by over 20 weeks between 1979 and 2013. These changes are also accompanied by winter sea ice retreat that is especially pronounced in the Barents Sea compared to other Arctic areas. Despite the declining sea ice in the Barents Sea, polar bears are likely not lacking food as long as sea ice is present during their peak feeding period. Polar bears feed extensively from April to June when ringed seals have pups and are particularly vulnerable to predation, whereas the predation rate during the rest of the year is likely low.”
Note this statement: “Despite the declining sea ice in the Barents Sea, polar bears are likely not lacking food as long as sea ice is present during their peak feeding period.”
Martyn Obbard and colleagues (2016: 29) said essentially the same thing to explain why the body condition of Southern Hudson Bay polar bears had not declined in lock-step with sea ice declines in recent years. And I have said something very similar – many times – to explain why summer sea ice decline has not had a devastating effect on polar bears (Crockford 2017, 2019, 2020), a conclusion I arrived at from my review of the polar bear literature (including Obbard’s paper).
Probably more than any other statement, it has been my insistence that summer sea ice is not essential polar bear habitat that I have been publicly disparaged and denigrated by journalists and colleagues (see also Harvey et al. 2018). It was undoubtedly also instrumental in the loss of my adjunct professor status. Yet it is what the evidence shows.
Bottom line: Contrary to predictions, this new paper documents that the body condition of Barents Sea polar bears has improved significantly between 2005 and 2017 despite the most profound decline in summer sea ice of any polar bear subpopulation, which is consistent with a marked but non-statistically significant increase (42%) in population size (Aars 2018; Aars et al. 2017; Crockford 2017, 2019, 2020).
Aars, J. 2018. Population changes in polar bears: protected, but quickly losing habitat. Fram Forum Newsletter 2018. Fram Centre, Tromso. Download pdf here (32 mb).
Aars, J., Marques,T.A, Lone, K., Anderson, M., Wiig, Ø., Fløystad, I.M.B., Hagen, S.B. and Buckland, S.T. 2017. The number and distribution of polar bears in the western Barents Sea. Polar Research 36:1. 1374125. doi:10.1080/17518369.2017.1374125
Amstrup, S.C., Marcot, B.G. & Douglas, D.C. 2007. Forecasting the rangewide status of polar bears at selected times in the 21st century. US Geological Survey. Reston, VA. Pdf here
Blanchet, M.A., Aars, J., Andersen, M., Routti, H. 2020. Space-use strategy affects energy requirements in Barents Sea polar bears. Marine Ecology Progress Series 639:1-19. https://doi.org/10.3354/meps13290
Crockford, S.J. 2017. Testing the hypothesis that routine sea ice coverage of 3-5 mkm2 results in a greater than 30% decline in population size of polar bears (Ursus maritimus). PeerJ Preprints 19 January 2017. Doi: 10.7287/peerj.preprints.2737v1 Open access. https://peerj.com/preprints/2737/
Crockford, S.J. 2020. State of the Polar Bear Report 2019. Global Warming Policy Foundation Report 39, London. PDF here.
Hamilton, S. and Derocher, A.E. 2019. Assessment of global polar bear abundance and vulnerability. Animal Conservation 22(1):83-95. doi:10.1111/acv.12439
Harvey, J.A., van den Berg, D., Ellers, J., Kampen, R., Crowther, T.W., Roessingh, P., Verheggen, B., Nuijten, R. J. M., Post, E., Lewandowsky, S., Stirling, I., Balgopal, M., Amstrup, S.C., and Mann, M.E. 2017. Internet blogs, polar bears, and climate-change denial by proxy. Bioscience 68: 281-287. DOI: 10.1093/biosci/bix133 Open Access, available here. Supplementary data file available here and the data for the principal component analysis is available here and (h/t to R. Tol), the R code is available here Corrigendum here (issued 28 March 2018). Scheduled for the April print issue.
Lippold, A., Bourgeon, S., Aars, J., Andersen, M., Polder, A., Lyche, J.L., Bytingsvik, J., Jenssen, B.M., Derocher, A.E., Welker, J.M. and Routti, H. 2019. Temporal trends of persistent organic pollutants in Barents Sea polar bears (Ursus maritimus) in relation to changes in feeding habits and body condition. Environmental Science and Technology 53(2):984-995.
Obbard, M.E., Cattet, M.R.I., Howe, E.J., Middel, K.R., Newton, E.J., Kolenosky, G.B., Abraham, K.F. and Greenwood, C.J. 2016. Trends in body condition in polar bears (Ursus maritimus) from the Southern Hudson Bay subpopulation in relation to changes in sea ice. Arctic Science 2:15-32 Doi 10.1139/AS-2015-0027 http://www.nrcresearchpress.com/doi/abs/10.1139/AS-2015-0027#.VvFtlXpUq50
Regehr, E.V., Laidre, K.L, Akçakaya, H.R., Amstrup, S.C., Atwood, T.C., Lunn, N.J., Obbard, M., Stern, H., Thiemann, G.W., & Wiig, Ø. 2016. Conservation status of polar bears (Ursus maritimus) in relation to projected sea-ice declines. Biology Letters 12: 20160556. http://rsbl.royalsocietypublishing.org/content/12/12/20160556
Stern, H.L. and Laidre, K.L. 2016. Sea-ice indicators of polar bear habitat. Cryosphere 10: 2027-2041.