Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen

Pages 557-581 : illustrations 24 cm Bibliographical references (pages 579-581) Abstract in Polish The growth rate of the nestlings of the little auk is the highest among Alcidae (K = 0.256, t10-90 = 17.2 days). The peak weight represents 77.3%, and the fledging weight 67.3% of the weight of adult bi...

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Main Author: Stempniewicz, Lech
Other Authors: Polska Akademia Nauk. Instytut Ekologii
Format: Text
Language:English
Published: Polish Scientific Publishers 1980
Subjects:
Spitsbergen
little auk
growth and development of nestlings
Arctic
Online Access:https://rcin.org.pl/dlibra/publication/edition/77319/content
id ftrcin:oai:rcin.org.pl:77319
record_format openpolar
institution Open Polar
collection Digital Repository of Scientific Institutes (RCIN)
op_collection_id ftrcin
language English
topic Spitsbergen
little auk
growth and development of nestlings
spellingShingle Spitsbergen
little auk
growth and development of nestlings
Stempniewicz, Lech
Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
topic_facet Spitsbergen
little auk
growth and development of nestlings
description Pages 557-581 : illustrations 24 cm Bibliographical references (pages 579-581) Abstract in Polish The growth rate of the nestlings of the little auk is the highest among Alcidae (K = 0.256, t10-90 = 17.2 days). The peak weight represents 77.3%, and the fledging weight 67.3% of the weight of adult birds. The high growth rate, short nesting period and relatively small body size at fledging are the expression of an evolutional tendency of the nestlings of the little auk to precocity which is a form of adaptation of the species to reproduction in high-arctic conditions. The prefledging body-weight fall improves the locomotory capability and physiological efficiency of juvenile birds leaving a breeding colony. Egg size, related to the body size of parent birds, has a significant influence on the growth and development of the nestlings. In the period that precedes the leaving of the nest a tendency is seen towards a uniform body size of the nestlings through changes in the length of the nesting period, and the magnitude of the prefledging body-weight decrease. Strony 557-581 : ilustracje 24 cm Bibliografia na stronach 579-581 Streszczenie w języku polskim The growth rate of the nestlings of the little auk is the highest among Alcidae (K = 0.256, t10-90 = 17.2 days). The peak weight represents 77.3%, and the fledging weight 67.3% of the weight of adult birds. The high growth rate, short nesting period and relatively small body size at fledging are the expression of an evolutional tendency of the nestlings of the little auk to precocity which is a form of adaptation of the species to reproduction in high-arctic conditions. The prefledging body-weight fall improves the locomotory capability and physiological efficiency of juvenile birds leaving a breeding colony. Egg size, related to the body size of parent birds, has a significant influence on the growth and development of the nestlings. In the period that precedes the leaving of the nest a tendency is seen towards a uniform body size of the nestlings ...
author2 Polska Akademia Nauk. Instytut Ekologii
format Text
author Stempniewicz, Lech
author_facet Stempniewicz, Lech
author_sort Stempniewicz, Lech
title Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
title_short Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
title_full Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
title_fullStr Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
title_full_unstemmed Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen
title_sort factors influencing the growth of the little auk, plautus alle (l.), nestlings on spitsbergen
publisher Polish Scientific Publishers
publishDate 1980
url https://rcin.org.pl/dlibra/publication/edition/77319/content
geographic Arctic
geographic_facet Arctic
genre Arctic
little auk
Spitsbergen
genre_facet Arctic
little auk
Spitsbergen
op_source MiIZ PAN, call no. P.2840
http://katalog.pan.pl/webpac-bin/228bmiizPL/wgbroker.exe?new+-access+top+search+open+NR+kz2006002718
MiIZ PAN, sygn. P.2840
op_relation Ekologia Polska
1. Andersson M. 1976 - Population ecology of the long-tailed skua (Stercorarius longicaudus Vieill.) - J. anim. Ecol. 45: 537-559.
2. Ashmole N. P. 1971 - Sea bird ecology and the marine environment (In: Avian biology. I, Eds. D. S. Farner, J. R. King) - Academic Press, New York-London, 223-286.
3. Barth E. K. 1967/68 - Egg dimensions and laying dates of Larus marinus, L. argentatus, L. fuscus, and L. canus - Nytt Mag. Zool. 15: 5-34.
4. Bayes J.C., Dawson M.J., Potts G. R. 1964 - The food and feeding behaviour of the great skua in the Faroes - Bird Study, 11: 272-279.
5. Bedard J. 1976 - Coexistence, coevolution and convergent evolution in seabird communities: a comment - Ecology, 57: 177-184.
6. Belopolski L. O. 1957 - Ekologija morskich kolonjalnych ptic Barenceva Morja - Izd. Akademii Nauk SSSR, Moskva-Leningrad, 458 pp.
7. Bezzel E., Schwarzenbach F. H. 1968 - Zur Variation der Eidimensionen bei Enten und ihrer biometrischen Auswertung - Anz. om. Ges. Bayern, 8: 235-254.
8. Birkhead T. R. 1976 - Effects of sea conditions on rates at which guillemots feed chicks - Br. Birds, 69: 490-492.
9. Cody M. L. 1973 - Coexistence, coevolution and convergent evolution in seabird communities - Ecology, 54: 31-44.
10. Corkhill P. 1973 - Food and feeding ecology of puffins - Bird Study, 20: 207-220.
11. Coulson J. C. 1963 - Egg size and shape in the kittiwake (Risso tridactyla) and their use in estimating age composition of populations - Proc. zool. Soc. Lond. 140: 211-227.
12. Coulson J.C., Potts G.R., Horobin J. 1969 - Variation in the eggs of the shag (Phalacrocorax aristotelis) – Auk, 86: 232-245.
13. Dunn E. K. 1975 - The role of environmental factors in the growth of tern chicks - J. anim. Ecol. 44: 743-754.
14. Dyrcz A. 1974 - Factors affecting the growth rate of nestling great reed warblers and reed warblers at Milicz, Poland - Ibis, 116: 330-339.
15. Gibb J. A. 1950 - The breeding biology of the great and blue titmice - Ibis, 92, 507-539.
16. Harris M. P. - 1966 - Breeding biology of the manx schearwater Puffinus puffinus - Ibis, 108: 17-33.
17. Jenkins D., Watson A., Miller G.R. 1963 - Population fluctuations in the red grouse Lagopus lagopus scoticus - J. anim. Ecol. 36: 97-122.
18. Johnson S. R., West G. C. 1975 - Growth and development of heat regulation in nestlings, and metabolism of adult common and thick-billed murres - Orn. scand. 6: 109-115.
19. Kendeigh S. C., Kramer T. C., Hammerstrom F. 1956 - Variations in egg characteristics of the house wren - Auk, 73: 42-65.
20. Kozlova E. V. 1957 - Podotrad cistikovye. Fauna SSSR. Pticy II - Izd. Akademii Nauk SSSR, Moskva-Leningrad, 143 pp.
21. Lack D. 1967 - Interrelationships in breeding adaptations as shown by marine birds - Proc. XIV Intern. Ornith. Congr. 3-42.
22. Le Croy M., Collins C. T. 1972 - Growth and survival of roseate and common tern chicks - Auk, 89: 595-611.
23. Le Croy M., Le Croy S. 1974 - Growth and fledging in the common tern (Sterna hirundo) – Bird-Banding, 45: 326-340.
24. Lloyd C. S. 1977 - The ability of the razorbill Alea torda to raise an additional chick to fledging - Orn. scand. 8: 155-159.
25. Murton R. K., Westwood N. J., Isaacson A. J. 1974 - Factors affecting egg-weight, body-weight and moult of the woodpigeon Columbo palumbus - Ibis, 116: 52-73.
26. Myrberget S. 1962 - Undersokelser over forplantmingsbiologien til lunde (Fratercula arctica L.) - Meddr. St. Viltunders. 11: 1-51.
27. Myrberget S. 1977 - Size and shape of eggs of willow grouse Lagopus lagopus - Orn. scand. 8: 39-46.
28. Norderhaug M. 1968 - Trekkforhold, Stedstrohet og Pardannelse hos Alkekonge pa Svalbard - Norsk Polarinst. Medd. 96: 236-244.
29. Norderhaug M. 1970 - The role of the little auk, Plautus alle (L.) in arttic ecosystems - Antarctic Ecol. 1: 558-560.
30. Parsons J. 1970 - Relationship between egg size and post-hatching chick mortality in the herring gull (Larus argentatus) - Nature, Lond. 228: 1221-1222.
31. Perrins C. M. 1965 - Population fluctuations and clutch-size in the great tit Paris major L. - J. anim. Ecol. 34: 601-634.
32. Perrins C. M. 1970 - The timing of bird's breeding seasons - Ibis, 112: 242-255.
33. Pikula J. 1971 - Die Variabilitat der Eier der Population Turdus philomelos, Brehm 1831 in der CSSR - Zool. Listy, 20: 69-83.
34. Preston F. W. 1958 - Variation of egg size with age of parents - Auk, 75: 476-477.
35. Ratcliffe D. A. 1962 - Breeding density in the peregrine Falco peregrinus and raven Corvus corax - Ibis, 104: 13-39.
36. Richdale L. E. 1955 - Influence of age on the size of eggs in yellow-eyed penguins - Ibis, 97: 266-275.
37. Ricklefs R. E. 1967 - A graphical method of fitting equations to growth curves - Ecology, 48: 978-983.
38. Ricklefs R.E. 1968a - Patterns of growth in birds - Ibis, 110: 419-451.
39. Ricklefs R. E. 1968b - Weight recession in nestling birds - Auk, 85: 30-35.
40. Ricklefs R. E. 1973 - Patterns of growth in birds. II. Growth rate and mode of development - Ibis, 115: 177-201.
41. Romanoff A. L., Romanoff A. J. 1949 - The avian egg - John Wiley and Sons, New York, 918 pp.
42. Schifferli L. 1973 - The effect of egg weight on the subsequent growth of nestling great tits Parus major - Ibis, 115: 549-558.
43. Schreiber R. W. 1976 - Growth and development of nestling brown pelican - Bird-Banding, 47: 19-39.
44. Sealy S. G. 1973a - Breeding biology of the horned puffin on St. Lawrence Island, Bering Sea, with zoogeographical notes on the north pacific puffins - Pacif. Sci. 27: 99-119.
45. Sealy S. G. 1973b - Adaptative significance of post-hatching developmental patterns and growth rates in the Alcidae - Orn. scand. 4: 113-121.
46. Sealy S. G. 1975a - Aspects of the breeding biology of the marbled murrelet in British Columbia - Bird-Banding, 46: 141-154.
47. Sealy S. G. 1975b - Feeding ecology of the ancient and marbled murrelets near Langara Island, British Columbia - Can. J. Zool. 53: 413-433.
48. Sealy S. G. 1975c - Egg size of murrelets - Condor, 77: 500-501.
49. Sealy S. G. 1976 - Biology of nesting ancient murrelets - Condor, 78: 294-306.
op_rights Creative Commons Attribution BY 3.0 PL license
Licencja Creative Commons Uznanie autorstwa 3.0 Polska
op_rightsnorm CC-BY
_version_ 1766335669430386688
spelling ftrcin:oai:rcin.org.pl:77319 2023-05-15T15:03:49+02:00 Factors influencing the growth of the little auk, Plautus alle (L.), nestlings on Spitsbergen Growth of the little auk nestling Stempniewicz, Lech Polska Akademia Nauk. Instytut Ekologii 1980 application/pdf https://rcin.org.pl/dlibra/publication/edition/77319/content eng eng Polish Scientific Publishers Ekologia Polska 1. Andersson M. 1976 - Population ecology of the long-tailed skua (Stercorarius longicaudus Vieill.) - J. anim. Ecol. 45: 537-559. 2. Ashmole N. P. 1971 - Sea bird ecology and the marine environment (In: Avian biology. I, Eds. D. S. Farner, J. R. King) - Academic Press, New York-London, 223-286. 3. Barth E. K. 1967/68 - Egg dimensions and laying dates of Larus marinus, L. argentatus, L. fuscus, and L. canus - Nytt Mag. Zool. 15: 5-34. 4. Bayes J.C., Dawson M.J., Potts G. R. 1964 - The food and feeding behaviour of the great skua in the Faroes - Bird Study, 11: 272-279. 5. Bedard J. 1976 - Coexistence, coevolution and convergent evolution in seabird communities: a comment - Ecology, 57: 177-184. 6. Belopolski L. O. 1957 - Ekologija morskich kolonjalnych ptic Barenceva Morja - Izd. Akademii Nauk SSSR, Moskva-Leningrad, 458 pp. 7. Bezzel E., Schwarzenbach F. H. 1968 - Zur Variation der Eidimensionen bei Enten und ihrer biometrischen Auswertung - Anz. om. Ges. Bayern, 8: 235-254. 8. Birkhead T. R. 1976 - Effects of sea conditions on rates at which guillemots feed chicks - Br. Birds, 69: 490-492. 9. Cody M. L. 1973 - Coexistence, coevolution and convergent evolution in seabird communities - Ecology, 54: 31-44. 10. Corkhill P. 1973 - Food and feeding ecology of puffins - Bird Study, 20: 207-220. 11. Coulson J. C. 1963 - Egg size and shape in the kittiwake (Risso tridactyla) and their use in estimating age composition of populations - Proc. zool. Soc. Lond. 140: 211-227. 12. Coulson J.C., Potts G.R., Horobin J. 1969 - Variation in the eggs of the shag (Phalacrocorax aristotelis) – Auk, 86: 232-245. 13. Dunn E. K. 1975 - The role of environmental factors in the growth of tern chicks - J. anim. Ecol. 44: 743-754. 14. Dyrcz A. 1974 - Factors affecting the growth rate of nestling great reed warblers and reed warblers at Milicz, Poland - Ibis, 116: 330-339. 15. Gibb J. A. 1950 - The breeding biology of the great and blue titmice - Ibis, 92, 507-539. 16. Harris M. P. - 1966 - Breeding biology of the manx schearwater Puffinus puffinus - Ibis, 108: 17-33. 17. Jenkins D., Watson A., Miller G.R. 1963 - Population fluctuations in the red grouse Lagopus lagopus scoticus - J. anim. Ecol. 36: 97-122. 18. Johnson S. R., West G. C. 1975 - Growth and development of heat regulation in nestlings, and metabolism of adult common and thick-billed murres - Orn. scand. 6: 109-115. 19. Kendeigh S. C., Kramer T. C., Hammerstrom F. 1956 - Variations in egg characteristics of the house wren - Auk, 73: 42-65. 20. Kozlova E. V. 1957 - Podotrad cistikovye. Fauna SSSR. Pticy II - Izd. Akademii Nauk SSSR, Moskva-Leningrad, 143 pp. 21. Lack D. 1967 - Interrelationships in breeding adaptations as shown by marine birds - Proc. XIV Intern. Ornith. Congr. 3-42. 22. Le Croy M., Collins C. T. 1972 - Growth and survival of roseate and common tern chicks - Auk, 89: 595-611. 23. Le Croy M., Le Croy S. 1974 - Growth and fledging in the common tern (Sterna hirundo) – Bird-Banding, 45: 326-340. 24. Lloyd C. S. 1977 - The ability of the razorbill Alea torda to raise an additional chick to fledging - Orn. scand. 8: 155-159. 25. Murton R. K., Westwood N. J., Isaacson A. J. 1974 - Factors affecting egg-weight, body-weight and moult of the woodpigeon Columbo palumbus - Ibis, 116: 52-73. 26. Myrberget S. 1962 - Undersokelser over forplantmingsbiologien til lunde (Fratercula arctica L.) - Meddr. St. Viltunders. 11: 1-51. 27. Myrberget S. 1977 - Size and shape of eggs of willow grouse Lagopus lagopus - Orn. scand. 8: 39-46. 28. Norderhaug M. 1968 - Trekkforhold, Stedstrohet og Pardannelse hos Alkekonge pa Svalbard - Norsk Polarinst. Medd. 96: 236-244. 29. Norderhaug M. 1970 - The role of the little auk, Plautus alle (L.) in arttic ecosystems - Antarctic Ecol. 1: 558-560. 30. Parsons J. 1970 - Relationship between egg size and post-hatching chick mortality in the herring gull (Larus argentatus) - Nature, Lond. 228: 1221-1222. 31. Perrins C. M. 1965 - Population fluctuations and clutch-size in the great tit Paris major L. - J. anim. Ecol. 34: 601-634. 32. Perrins C. M. 1970 - The timing of bird's breeding seasons - Ibis, 112: 242-255. 33. Pikula J. 1971 - Die Variabilitat der Eier der Population Turdus philomelos, Brehm 1831 in der CSSR - Zool. Listy, 20: 69-83. 34. Preston F. W. 1958 - Variation of egg size with age of parents - Auk, 75: 476-477. 35. Ratcliffe D. A. 1962 - Breeding density in the peregrine Falco peregrinus and raven Corvus corax - Ibis, 104: 13-39. 36. Richdale L. E. 1955 - Influence of age on the size of eggs in yellow-eyed penguins - Ibis, 97: 266-275. 37. Ricklefs R. E. 1967 - A graphical method of fitting equations to growth curves - Ecology, 48: 978-983. 38. Ricklefs R.E. 1968a - Patterns of growth in birds - Ibis, 110: 419-451. 39. Ricklefs R. E. 1968b - Weight recession in nestling birds - Auk, 85: 30-35. 40. Ricklefs R. E. 1973 - Patterns of growth in birds. II. Growth rate and mode of development - Ibis, 115: 177-201. 41. Romanoff A. L., Romanoff A. J. 1949 - The avian egg - John Wiley and Sons, New York, 918 pp. 42. Schifferli L. 1973 - The effect of egg weight on the subsequent growth of nestling great tits Parus major - Ibis, 115: 549-558. 43. Schreiber R. W. 1976 - Growth and development of nestling brown pelican - Bird-Banding, 47: 19-39. 44. Sealy S. G. 1973a - Breeding biology of the horned puffin on St. Lawrence Island, Bering Sea, with zoogeographical notes on the north pacific puffins - Pacif. Sci. 27: 99-119. 45. Sealy S. G. 1973b - Adaptative significance of post-hatching developmental patterns and growth rates in the Alcidae - Orn. scand. 4: 113-121. 46. Sealy S. G. 1975a - Aspects of the breeding biology of the marbled murrelet in British Columbia - Bird-Banding, 46: 141-154. 47. Sealy S. G. 1975b - Feeding ecology of the ancient and marbled murrelets near Langara Island, British Columbia - Can. J. Zool. 53: 413-433. 48. Sealy S. G. 1975c - Egg size of murrelets - Condor, 77: 500-501. 49. Sealy S. G. 1976 - Biology of nesting ancient murrelets - Condor, 78: 294-306. Creative Commons Attribution BY 3.0 PL license Licencja Creative Commons Uznanie autorstwa 3.0 Polska CC-BY MiIZ PAN, call no. P.2840 http://katalog.pan.pl/webpac-bin/228bmiizPL/wgbroker.exe?new+-access+top+search+open+NR+kz2006002718 MiIZ PAN, sygn. P.2840 Spitsbergen little auk growth and development of nestlings Text Tekst 1980 ftrcin 2022-11-28T03:43:45Z Pages 557-581 : illustrations 24 cm Bibliographical references (pages 579-581) Abstract in Polish The growth rate of the nestlings of the little auk is the highest among Alcidae (K = 0.256, t10-90 = 17.2 days). The peak weight represents 77.3%, and the fledging weight 67.3% of the weight of adult birds. The high growth rate, short nesting period and relatively small body size at fledging are the expression of an evolutional tendency of the nestlings of the little auk to precocity which is a form of adaptation of the species to reproduction in high-arctic conditions. The prefledging body-weight fall improves the locomotory capability and physiological efficiency of juvenile birds leaving a breeding colony. Egg size, related to the body size of parent birds, has a significant influence on the growth and development of the nestlings. In the period that precedes the leaving of the nest a tendency is seen towards a uniform body size of the nestlings through changes in the length of the nesting period, and the magnitude of the prefledging body-weight decrease. Strony 557-581 : ilustracje 24 cm Bibliografia na stronach 579-581 Streszczenie w języku polskim The growth rate of the nestlings of the little auk is the highest among Alcidae (K = 0.256, t10-90 = 17.2 days). The peak weight represents 77.3%, and the fledging weight 67.3% of the weight of adult birds. The high growth rate, short nesting period and relatively small body size at fledging are the expression of an evolutional tendency of the nestlings of the little auk to precocity which is a form of adaptation of the species to reproduction in high-arctic conditions. The prefledging body-weight fall improves the locomotory capability and physiological efficiency of juvenile birds leaving a breeding colony. Egg size, related to the body size of parent birds, has a significant influence on the growth and development of the nestlings. In the period that precedes the leaving of the nest a tendency is seen towards a uniform body size of the nestlings ... Text Arctic little auk Spitsbergen Digital Repository of Scientific Institutes (RCIN) Arctic

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