Influence of pool habitat characteristics on Red-throated Loon Gavia stellata occupancy and reproduction in a Boreal forest landscape

Börje Dahlén; Ute Bradter; Elisabet Ottosson; Mats OG Eriksson

doi:10.34080/os.v34.23510

Authors

Börje Dahlén https://orcid.org/0000-0003-1944-3875
Ute Bradter Department of Terrestrial Ecology, Norwegian Institute for Nature Research (NINA) https://orcid.org/0000-0001-5687-1233
Elisabet Ottosson Swedish Species Information Centre (SLU Artdatabanken) https://orcid.org/0000-0003-4678-4210
Mats OG Eriksson MK Natur- och Miljökonsult https://orcid.org/0000-0003-2013-3188

DOI:

https://doi.org/10.34080/os.v34.23510

Keywords:

waterbird, piscivore bird, breeding success, population management, environmental impact assessment

Abstract

We investigated the occupancy of alternative breeding pools for Red-throated Loon Gavia stellata and the reproductive output in relation to a selection of habitat characteristics in a coniferous forest inland area in South-central Sweden, using generalized linear mixed models. Models provided good support for the conclusion that small-sized pools with high coverage of floating vegetation were preferred. The survival of pre-fledged chicks was higher when foraging waters were located closer, and open mires around the breeding pool were more extensive. We propose that these habitat characteristics should be considered in nature conservation planning and management, as well as in environmental impact assessments. We found that with the current data, predicting pool occupancy and chick survival based on the selected habitat characteristics was not sufficiently accurate to replace field surveys and can only be used as a complementary method. We also emphasize the importance of freshwaters, potentially to be used for foraging in the surrounding landscape, which is an often-overlooked aspect in management and impact assessments.

Downloads

Download data is not yet available.

References

Bahn V & McGill BJ. 2013. Testing the predictive performance of distribution models. Oikos 122: 321–331. https://doi. org/10.1111/j.1600-0706.2012.00299.x

Ball JR. 2004. Effects of parental provisioning and attendance on growth and survival of Red-throated Loon prefledglings: a potential mechanism linking marine regime shifts to population change. MSc thesis, Simon Fraser University, Burnaby, British Columbia. https://summit.sfu. ca/item/4829

Barton K. 2020. MuMIn: multi-model inference. R package version 1.43.17. https://CRAN.R-project.org/package=MuMIn

BirdLife International. 2022. Species factsheet: Gavia stellata. Downloaded from http://datazone.birdlife.org/species/factsheet/ red-throated-loon-gavia-stellata

Breiman L. 2001. Random Forests. Machine Learning 45: 5–32. https://doi.org/10.1023/A:1010933404324

Brooks TM, Kristensen K, van Benthem KJ, Magnusson A, Berg CW, Nielsen A, Skaug HJ, Maechler M & Bolker BM. 2017. glmmTMB balances speed and flexibility among packages for zero-inflated generalized linear mixed modeling. The R Journal 9: 378–400. https://doi.org/10.32614/RJ-2017-066

Burnham KP. 2015. Multimodel inference: understanding AIC relative variable importance values. Colorado State University, Fort Collins. https://sites.warnercnr.colostate.edu/kenburnham/wp-content/ uploads/sites/25/2016/08/VARIMP.pdf

Burnham KP & Anderson DR. 2004. Multimodel inference: understanding AIC and BIC in model selection. Sociological Methods & Research 33: 261–304. https://doi.org/10.1177/0049124104268644.

Chen C, Liaw A & Breiman L. 2004. Using Random Forest to learn imbalanced data. Technical Report 666: statistics Department, University of California at Berkeley, CA, USA. https://digitalassets. lib.berkeley.edu/sdtr/ucb/text/666.pdf

Dahlén B & Eriksson MOG. 2002. Smålommens Gavia stellata häckningsframgång i artens svenska kärnområde. [Breeding success of the Red-throated Diver Gavia stellata in the core area of the Swedish population.] Ornis Svecica 12: 1–33. https://doi. org/10.34080/os.v12.22452

Dormann CF, Elith J, Bacher S, Buchmann C, Carl G, Carré G, García Marquéz J-R, Gruber B, Lafourcade B, Leitão PJ, Münkemüller T, McClean C, Osborne PE, Reineking B, Schröder B, Skidmore AK, Zurell D & Lautenbach S. 2013. Collinearity: a review of methods to deal with it and a simulation study evaluating their performance. Ecography 36: 27–46. https://doi. org/10.1111/j.1600-0587.2012.07348.x

Douglas SD & Reimchen TE. 1988. Habitat characteristics and population estimate of breeding Red-throated Loons, Gavia stellata, on the Queen Charlotte Islands, British Columbia. Canadian Field Naturalist 102: 679–684. https://web.uvic. ca/~reimlab/Habitat%20Characteristics%20CFN.pdf

Drent RH & Daan S. 1980. The prudent parent: energetic adjustments in avian breeding. Ardea 68: 225–252. https://doi. org/10.5253/arde.v68.p225

Duckworth J, O’Brien S, Petersen IK, Petersen G, Benediktsson G, Johnson L, Lehikoinen P, Okill D, Väisänen R, Williams J, Williams S, Daunt F & Green JA. 2021. Spatial and temporal variation in foraging of breeding red-throated divers. Journal of Avian Biology 2021: e02702. https://doi.org/10.1111/jav.02702

Eberl C & Picman J. 1993. Effects of nest site location on reproductive success of Red-throated Loon (Gavia stellata). Auk: 110: 436–444. https://doi.org/10.2307/4088408

Eriksson MOG. 2006. Smålommens Gavia stellata häckningsframgång i relation till vattenkemi och fiskbeståndens sammansättning i olika fiskevatten. [Breeding success of the Red-throated Diver Gavia stellata in relation to water chemistry and composition of the fish stocks in different fishing lakes.] Ornis Svecica 16: 211–231. https://doi. org/10.34080/os.v16.22708

Eriksson MOG. 2019. Projekt Lom 25 år. Nivåer och trender i storlommens och smålommens häckningsutfall 1994–2018. Pp 41–55 in SOF-BirdLife (2019). Fågelåret 2018. BirdLife Sverige, Halmstad. https://cdn.birdlife.se/wp-content/uploads/ sites/30/2019/12/Fa%CC%8Agela%CC%8Aret-2018_Projekt-Lom-slutversion.pdf

Eriksson MOG & Johansson I. 1997. Smålommen Gavia stellata i sydvästra Sverige – beståndsutveckling och häckningsframgång. [The red-throated Diver Gavia stellata in southwest Sweden: population trend and breeding success.] Ornis Svecica 7: 1–10. https:// doi.org/10.34080/os.v7.22973

Eriksson MOG & Paltto H. 2010. Vattenkemi och fiskbeståndens sammansättning i storlommens Gavia arctica häckningssjöar, samt en jämförelse med smålommens Gavia stellata fiskesjöar. [Water chemistry and the composition of fish stocks in the breeding lakes of Black-throated Diver Gavia arctica, and a comparison with the fishing lakes of Red-throated Diver Gavia stellata.] Ornis Svecica 20: 3–30. https://doi.org/10.34080/os.v20.22640

Eriksson MOG & Åhlund M. 2013. Dynamiken i smålommens Gavia stellata val av häckningslokaler – övergivande, ny- och återetableringar. [Dynamics of breeding site choice of Red-throated Loon Gavia stellata – abandonments, new establishments and reoccupation.] Ornis Svecica 23: 130–142. https://doi.org/10.34080/ os.v23.22450

Eriksson MOG, Arvidsson B & Johansson I. 1988. Habitatkaraktärer hos häckningssjöar för smålom Gavia stellata i sydvästra Sverige. [Habitat characteristics of Red-Throated Diver, Gavia stellata, breeding lakes in South-west Sweden.] Vår Fågelvärld 47: 122–132.

Eriksson MOG, Blomqvist D, Hake M & Johansson OC. 1990. Parental feeding in the Red-throated Diver Gavia stellata. Ibis 132: 1–13. https://doi.org/10.1111/j.1474-919X.1990.tb01010.x

European Parliament. 2009. Directive 2009/147/EC of the European Parliament and of the Council of 30 November 2009 on the conservation of wild birds (codified version). Official Journal of the European Union L 20: 7–25. https://doi.org/10.3000/ 17252555.L_2010.020.eng

Evers DC. 2004. Status assessment and conservation plan for the Common Loon (Gavia immer) in North America. U.S. Fish and Wildlife Service, Hadley, MA. https://meridian.allenpress.com/ jfwm/article-supplement/433019/pdf/10_3996082018-jfwm-078_s7

Gomersall CH. 1986. Breeding performance of the red-throated diver Gavia stellata in Shetland. Holarctic Ecology 9: 277–284. https://doi. org/10.1111/j.1600-0587.1986.tb01220.x

Green M, Haas F & Lindström Å. 2022. Övervakning av fåglarnas populationsutveckling. Årsrapport för 2021. [Monitoring population changes of birds in Sweden. Annual report for 2021]. Department of Biology, Lund University, Lund. 89 pp. http://fageltaxering.lu.se/ sites/default/files/files/Rapporter/arsrapportfor2021kf.pdf

Grömping U. 2009. Variable importance assessment in regression: Linear regression versus Random Forest. The American Statistician 63: 308–319. https://doi.org/10.1198/tast.2009.08199

Gunnarsson U, Kempe G & Kellner O. 2010. Mer träd på myrarna. Igenväxning de senaste 20 åren. Länsstyrelsen i Dalarnas län Report 2010:4 and Länsstyrelsen i Gävleborgs län Report 2010: 3. https:// www.diva-portal.org/smash/get/diva2:767195/FULLTEXT01.pdf.

Hartig F. 2018. DHARMa: residual diagnostics for hierarchical (multi-level / mixed) regression models. R package version 0.2.0. http:// CRAN.R-project.org/package=DHARMa

Hulka S. 2010. Red-throated Diver breeding ecology and nest survival on Shetland. PhD thesis, University of Glasgow, UK. https://www. natural-research.org/application/files/7514/9073/4536/2010hulka phd.pdf

Jackson D. 2003. Between lake differences in the diet and provisioning behaviour of Black-throated Divers Gavia arctica breeding in Scotland. Ibis 145: 30–44. https://doi. org/10.1046/j.1474-919X.2003.00119.x

Lehtonen E. 2016. Breeding site selection and breeding success in Red-throated Diver (Gavia stellata): Implications for wind power development. MSc thesis, Uppsala University, Sweden. https:// uu.diva-portal.org/smash/get/diva2:1072426/FULLTEXT01.pdf

Liaw A & Wiener M. 2002. Classification and regression by randomForest. R News 2/3: 18–22. https://cogns.northwestern.edu/ cbmg/LiawAndWiener2002.pdf

Lokki J & Eklöf K. 1984. Breeding success of the Red-throated Diver (Gavia stellata) in southern Finland. Annales Zoologici Fennici 21: 417–419. http://www.sekj.org/PDF/anzf21/anzf21-417-419.pdf

Merrie TDH. 1978. Relationship between spatial distribution of breeding divers and the availability of fishing waters. British Birds 25: 119–122. https://doi.org/10.1080/00063657809476583

Nakagawa S, Johnson PCD & Schielzeth H. 2017. The coefficient of determination R-2 and intra-class correlation coefficient from generalized linear mixed-effects models revisited and expanded. Journal of the Royal Society Interface 14: 20170213. https://doi. org/10.1098/rsif.2017.0213.

Norberg RÅ & Norberg UM. 1971. Take-off, landing and flight speed during fishing flights of Gavia stellata (Pont.). Ornis Scandinavica 2: 55–67. http://dx.doi.org/10.2307/3676239

Norberg RÅ & Norberg UM. 1976. Size of fish carried by flying Red-throated Divers Gavia stellata (Pont.) to nearly fledged young in nesting tarn. Ornis Fennica 53: 92–95. https://lintulehti.birdlife. fi:8443/pdf/artikkelit/988/tiedosto/of_53_92-95_artikkelit_988.

Norstedt G, Hasselquist EM & Laudon H. 2021. From haymaking to wood production: Past use of mires in Northern Sweden affect current ecosystems services and function. Rural Landscapes: Society, Environment, History 8: 2, 1–15. https://doi.org/10.16993/rl.70

Nummi P, Väänänen V-M, Pakarinen R & Pienmunne E. 2013. The Red-throated Diver (Gavia stellata) in human-disturbed habitats – building up a local population with the aid of artificial rafts. Ornis Fennica 90: 16–22. https://researchportal.helsinki.fi/en/ publications/the-red-throated-diver-gavia-stellata-in-human-disturbed-habitats

Okill JD & Wanless S. 1990. Breeding success and chick growth of Red-throated Divers Gavia stellata in Shetland 1979–1988. Ringing & Migration 11: 65–72. https://doi.org/10.1080/03078698. 1990.9673963

Olsson C, Petterson J & Johansson F. 2021. Häckningsbiologiska studier av smålom Gavia stellata på Holmöarna, norra Sverige. [Breeding biology of the Red-throated Loon Gavia stellata on the Holmöarna Archipelago, Northern Sweden.] Ornis Svecica 31: 1–18. https://doi.org/10.34080/os.v31.22276

Ottosson U, Ottvall R, Elmberg J, Green M, Gustafsson R, Haas F, Holmqvist N, Lindström Å, Nilsson L, Svensson M, Svensson S & Tjernberg M. 2012. Fåglarna i Sverige – antal och förekomst. [The birds in Sweden – numbers and abundance]. Sveriges Ornitologiska Förening, Halmstad.

Peduzzi P, Concato J, Kemper E, Holford TR & Feinstein AR. 1996. A simulation study of the number of events per variable in logistic regression analysis. Journal of Clinical Epidemiology 49: 1373–1379. https://doi.org/10.1016/s0895-4356(96)00236-388

R Core Team. 2020. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. http:// www.r-project.org/index.html

Rizzolo DJ, Schmutz JA, McCloskey SE & Fondell TF. 2014. Factors influencing nest survival and productivity of Red-throated Loons (Gavia stellata) in Alaska. Condor 116: 574–587. https://doi. org/10.1650/CONDOR-14-25.1.

Rizzolo DJ, Schmutz JA & Speakman JR. 2015. Fast and efficient: postnatal growth and energy expenditure in an Arctic-breeding waterbird, the Red-throated Loon (Gavia stellata). Auk 132: 657–670. https://doi.org/10.1642/AUK-14-261.1

Rizzolo DJ, Gray CE, Schmutz JA, Barr JF, Eberl C & McIntyre JW. 2020. Red-throated Loon (Gavia stellata), version 2.0. In Birds of the World (Rodewald PG & Keeney BK, eds). Cornell Lab of Ornithology, Ithaca, NY, USA. https://doi.org/10.2173/bow.retloo.02

Rosenius P. 1942. Svenska fåglar och fågelbon. Volume 5, Gleerups, Lund.

Schmutz JA. 2014. Survival of adult Red-throated Loons (Gavia stellata) may be linked to marine conditions. Waterbirds 37 (Special Publication 1): 118–124. https://doi.org/10.1675/063.037.sp114

Skyllberg U, Lessman J & Hansson P. 1999. Häckningsmiljöns betydelse för häckningsframgången hos havsfiskande smålom Gavia stellata i Västerbotten. [Importance of lake and nesting site characteristics for the breeding success of sea-foraging Red-throated Divers Gavia stellata in Västerbotten, Sweden.] Ornis Svecica 9: 107–120. https://doi.org/10.34080/os.v9.22453

Söderlund E. 2020. Effects of whitefish speciation on piscivorous birds. A dietary study of piscivorous birds in central and northern Sweden. MSc thesis, Umeå University, Sweden. https://www.diva-portal. org/smash/get/diva2:1521174/FULLTEXT01.pdf

Strobl C, Malley J & Tutz G. 2009. An introduction to recursive partitioning: rationale, application, and characteristics of classification and regression trees, bagging, and random forests. Psychological Methods 14: 323–348. https://doi.org/10.1037/ a0016973

Svensson S, Svensson M & Tjernberg M. 1999. Svensk fågelatlas. Sveriges Ornitologiska Förening, Stockholm.

Symonds MRE & Moussalli A. 2011. A brief guide to model selection, multimodel inference and model averaging in behavioural ecology using Akaike’s information criterion. Behavioral Ecology and Sociobiology 65: 13–21. https://doi. org/10.1007/s00265-010-1037-6

Wenger JW & Olden JD. 2012. Assessing transferability of ecological models: an underapprciated aspect of statistical validation. Methods in Ecology and Evolution 3: 260–267. http://dx.doi. org/10.1111/j.2041-210X.2011.00170.x

Wiklund J & Ottosson M. 2020. Sveriges sötvattensfiskar. Avium Förlag, Mörbylånga.

Zuur AF, Ieno EN, Walker NJ, Saveliev AA & Smith GM. 2009. Mixed effects models and extensions in ecology with R. Springer- Verlag, New York. https://doi.org/10.1007/978-0-387-87458-6_1