Mechanisms of density dependence in ducks: importance of space and per capita food
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- 作者:Petri Nummi ; Sari Holopainen ; Jukka Rintala ; Hannu P?ys?
- 关键词:Anas crecca ; Bucephala clangula ; Habitat variability ; Breeding success ; Boreal areas
- 刊名:Oecologia
- 出版年:2015
- 出版时间:March 2015
- 年:2015
- 卷:177
- 期:3
- 页码:679-688
- 全文大小:392 KB
- 参考文献:1. Anderson DR, Burnham KP (1976) Population ecology of the mallard: VI. The effects of exploitation on survival. Fish and Wildlife Service Resource Publication, US 128
2. Bailey RO (1981) A theoretical approach to problems in waterfowl management. Trans N Am Wildl Nat Res Conf 46:58-1
3. Balbontín J, Ferrer M (2008) Density-dependence by habitat heterogeneity: individual quality versus territory quality. Oikos 117:1111-114 CrossRef
4. Begon M, Townsend CR, Harper JL (2006) Ecology: from individuals to ecosystems, 4th edn. Blackwell Publishing, Oxford
5. Boyce MS (1984) Restitution of / r- and / K-selection as a model of density-dependent natural selection. Annu Rev Ecol Evol Syst 15:427-47
6. Brook BW, Bradshaw JA (2006) Strength of evidence for density dependence in abundance time series of 1198 species. Ecology 87:1445-451 CrossRef
7. Carrete M, Sánchez-Zapata JA, Tella JL, Gil-Sánchez MG, Moleón M (2006) Components of breeding performance in two competing species: habitat heterogeneity, individual quality and density-dependence. Oikos 112:680-90 CrossRef
8. Collett D (2003) Modelling Binary Data, 2dn edn. Chapman and Hall/CRC, London
9. Coluccy JM, Yerkes T, Simpson R, Simpson JW, Armstrong L, Davis J (2008) Population dynamics of breeding mallards in the great lakes states. J Wildl Manage 72:1181-187 CrossRef
10. Crête M, Courtois R (1997) Limiting factors might obscure population regulation of moose (Cervidae: / Alces alces) in unproductive boreal forests. J Zool 242:765-81 CrossRef
11. Danell K, Sj?berg K (1977) Seasonal emergence of chironomids in relation to egglaying and hatching of ducks in a restored lake northern Sweden. Wildfowl 28:129-35
12. Dhondt AA (2012) Interspecific competition in birds. Oxford University Press, Oxford
13. Dhondt AA, Kempenaers B, Adriaensen F (1992) Density-dependent clutch size caused by habitat heterogeneity. J Anim Ecol 61:643-48 CrossRef
14. Elmberg J, Nummi P, P?ys? H, Sj?berg K (1992) Do intruding predators and trap position affect the reliability of catches in activity traps. Hydrobiologia 239:187-93 CrossRef
15. Elmberg J, Nummi P, P?ys? H, Sj?berg K (2003) Breeding success of sympatric dabbling ducks in relation to population density and food resources. Oikos 100:333-41 CrossRef
16. Elmberg J, Gunnarsson G, P?ys? H, Sj?berg K, Nummi P (2005) Within-season sequential density dependence regulates breeding success in mallards / Anas platyrhynchos. Oikos 108:582-90 CrossRef
17. Ferrer M, Donazar JA (1996) Density-dependent fecundity by habitat heterogeneity in an increasing population of Spanish imperial eagles. Ecology 77:69-4 CrossRef
18. Fowler CW (1981) Density dependence as related to life history strategy. Ecology 62:602-10 CrossRef
19. Gauthier G (1987) Brood territories in buffleheads: determinants and correlates of territory size. Can J Zool 65:1402-410 CrossRef
20. Gunnarsson G, Elmberg J, Sj?berg K, P?ys? H, Nummi P (2004) Why are there so many empty lakes? Food limits survival of mallard ducklings. Can J Zool 82:1698-703 CrossRef
21. Gunnarsson G, Elmberg J, Sj?berg K, P?ys? H, Nummi P (2006) Experimental evidence for density-dependent survival in mallard ( / Anas platyrhynchos) ducklings. Oecologia 149:203-13
文摘
The growth rate of populations usually varies over time, often in a density-dependent manner. Despite the large amount of literature on density dependence, relatively little is known of the mechanisms underlying the density-dependent processes affecting populations, especially per capita natality. We performed a 20-year study on the density dependence of brood production in two duck species differing in the stability of habitat use. Our study was conducted in a boreal watershed in southern Finland. We predicted that a diving duck common goldeneye Bucephala clangula, with more stable habitat use, would show stronger density dependence than a dabbling duck common teal Anas crecca. We investigated reproductive output in relation to the duck pair density per se as well as in relation to per capita food availability. As predicted, the reproductive output of the goldeneye showed a more density-dependent pattern than that of the teal. The number of goldeneye broods per pair decreased when the pair density increased. This was not the case with the teal. However, when the breeding success was measured by taking into account per capita food availability, both species showed density dependence. Our results imply that the occurrence of density dependent processes may vary even in sympatric ducks breeding in the same, relatively stable landscape. Our analysis also emphasizes that it is important to take into account per capita resource availability when studying the density dependence of breeding success. Both findings have important implications for the management and conservation of species.