home-icon-73307  HOME      9birds-icona1.png  RESEARCH      687474703a2f2f32342e6d656469612e74756d626c722e636f6d2f74756d626c725f6d36386b6279464f596a317279737176676f315f313238302e706e67.png  PRESS     resume-writing5  CV       contact.png.png  CONTACT

Google Scholar

Black C, Collen B, Lunn D, Filby D, Winnard S, Hart T (accepted). Time-lapse cameras reveal latitude and season influence breeding phenology durations in penguins. Ecology and Evolution.

Jones F, Allen C, Arteta C, Arthur J, Black C, Emmerson L, Freeman R, Hines G, Lintott C, Macháčková Z, Miller G, Simpson R, Southwell C, Torsey H, Zisserman A, Hart T (accepted). Time-lapse imagery of penguin colonies- data for monitoring and computer vision, using citizen science. Scientific Data.

Black C, Southwell C, Emmerson L, Lunn D, Hart T (2018). Time-lapse imagery of Adélie penguins reveals differential winter strategies and breeding site occupation. Plos ONE 13(3): e0193532. pdf

Black C, Raya Rey A, Hart T (2017). Peeking into the bleak midwinter- investigating non-breeding strategies of penguins using a camera network. The Auk 134:520-529. pdf

Black C, Collen B, Johnston D, Hart T (2016). Why huddle? Ecological drivers of chick aggregations in gentoo penguins across latitudes. Plos ONE. DOI: 10.1371/journal.pone.0145676. pdf

Black C (2015). Phenology of Pygoscelis penguins: A comprehensive review of the phenology of Pygoscelis Polar Biology. DOI :10.1007/s00300-015-1807-8. pdf

Giraudeau M, Nolan P, Black C, Earl S, Hasegawa M, McGraw K (2014). Song characteristics track bill morphology along a gradient of urbanization in house finches (Haemorhous Mexicanus). Frontiers in Zoology, 11:83. pdf