Linas BALCIAUSKAS, Laima BALCIAUSKIENE, Marius JASIULIONIS

Mammals under a colony of great cormorants: population structure and body condition of yellow-necked mice

Investigations into small mammals within the territory of a breeding colony of great cormorants (Phalacrocorax carbo sinensis), carried out in 2011-2014 near Juodkrant? (West Lithuania), demonstrated the colony's impact on the dominant rodent, yellow-necked mouse (Apodemus flavicollis). The age and sex structure of the sampled mice (n = 432), along with body weight, body condition index, and residuals from the linear regression, were used to analyse data from five zones of the colony and the surrounding forest. We found that in the most active zones of the cormorant colony, the age structure of the population was tilted towards a prevalence of juveniles, while sex structure was towards a prevalence of males (P < 0.0001). Despite males being significantly longer in body and heavier, body condition index was the same in both sexes. The effect of the zone of the colony was confirmed for body weight and its residuals; body length and body condition index (main effects ANOVA) were negative in the zones where cormorants were nesting actively.

Anahtar Kelimeler:

Phalacrocorax carbo sinensis, breeding colony, Apodemus flavicollis, body condition

Mammals under a colony of great cormorants: population structure and body condition of yellow-necked mice

Keywords:

Phalacrocorax carbo sinensis, breeding colony, Apodemus flavicollis, body condition,

PDF

___

Adamonytė G, Iršėnaitė R, Motiejūnaitė J, Taraškevičius R, Matulevičiūtė D (2013). Myxomycetes in a forest affected by great cormorant colony: a case study in Western Lithuania. Fungal Divers 13: 131–146.
Alcántara M, Díaz M (1996). Patterns of body weight, body size, and body condition in the wood mouse Apodemus sylvaticus L.: effects of sex and habitat quality. In: Proceedings of the European Congress of Mammalogy I; 18–23 March 1991; Lisbon, Portugal. Lisbon, Portugal: Museu Bocage, pp. 141– 149.
Anderson WB, Polis GA (1999). Nutrient fluxes from water to land: seabirds affect plant nutrient status on Gulf of California islands. Oecologia 118: 324–332.
Balčiauskas L (2004). Methods of Investigation of Terrestrial Ecosystems. Part I. Animal Surveys. Vilnius, Lithuania: VUL (in Lithuanian).
Balčiauskas L, Balčiauskienė L, Janonytė A (2012). Reproduction of the root vole (Microtus oeconomus) at the edge of its distribution range. Turk J Zool 36: 668–675.
Balčiauskienė L, Jasiulionis M, Balčiauskas L (2014). Loss of diversity in a small mammal community in a habitat influenced by a colony of great cormorants. Acta Zool Bulgar 66: 229–234.
Blackwell GL (2002). A potential multivariate index of condition for small mammals. New Zeal J Zool 29: 195–203.
Breuning-Madsen H, Ehlers-Koch C, Gregersen J, Lİjtnant CL (2010). Influence of perennial colonies of piscivorous birds on soil nutrient contents in a temperate humid climate. Danish Journal of Geography 110: 25–35.
Bush ER, Buesching CD, Slade EM, Macdonald DW (2012). Woodland recovery after suppression of deer: cascade effects for small mammals, wood mice (Apodemus sylvaticus) and bank voles (Myodes glareolus). PLoS ONE 7: e31404.
Clark JE, Hellgren EC, Parsons JL, Jorgensen EE, Engle DM, Leslie DM (2005). Nitrogen outputs from fecal and urine deposition of small mammals: implications for nitrogen cycling. Oecologia 144: 447–455.
Dagys M, Zarankaitė J (2013). Status of the breeding population of Great Cormorants in Lithuania in 2012. In: Bregnballe T, Lynch J, Parz-Gollner R, Marion L, Volponi S, Paquet JY, Eerden MR, editors. National Reports from the 2012 Breeding Census of Great Cormorants Phalacrocorax carbo in Parts of the Western Palearctic. IUCN-Wetlands International Cormorant Research Group Report. Aahus, Denmark: Technical Report from DCE, Aarhus University, pp. 69–71.
Díaz M, Santos T, Tellería JL (1999). Effects of forest fragmentation on the winter body condition and population parameters of an habitat generalist, the wood mouse Apodemus sylvaticus: a test of hypotheses. Acta Oecol 20: 39–49.
Drouhot S, Raoul F, Crini N, Tougard C, Prudent AS, Druart C, Rieffel D, Lambert JC, Tête N, Giraudoux P et al. (2014). Responses of wild small mammals to arsenic pollution at a partially remediated mining site in Southern France. Sci Total Environ 470–471: 1012–1022.
Evsikov VI, Nazarova GG, Muzyka VY (2008). Body condition and reproductive characteristics of female water voles (Arvicola terrestris L.). Russ J Ecol 39: 414–417.
Garcia LV, Ramo C, Aponte C, Moreno A, Dominguez MT, Gomez- Aparicio L, Redondo R, Maranon T (2011). Protected wading bird species threaten relict centenarian cork oaks in a Mediterranean biosphere reserve: a conservation management conflict. Biol Conserv 144: 764–771.
Julliard R (2000). Sex-specific dispersal in spatially varying environments leads to habitat-dependent evolutionary stable offspring sex ratios. Behav Ecol 11: 421–428.
Kolb GS, Jerling L, Hambäck PA (2010). The impact of cormorants on plant–arthropod food webs on their nesting islands. Ecosystems 13: 353–366.
Kutorga E, Iršėnaitė R, Iznova T, Kasparavičius J, Markovskaja S, Motiejūnaitė J (2013). Species diversity and composition of fungal communities in a Scots pine forest affected by the great cormorant colony. Acta Mycol 48: 173–188.
Moors PJ (1985). Norway rats (Rattus norvegicus) on the Noises and Motukawao islands, Hauraki Gulf, New Zealand. New Zeal J Ecol 8: 37–54.
Motiejūnaitė J, Iršėnaitė R, Adamonytė G, Dagys M, Taraškevičius R, Matulevičiūtė D, Koreivienė J (2014). Pine forest lichens under eutrophication generated by a great cormorant colony. Lichenologist 46: 213–228.
Osono T (2012). Excess supply of nutrients, fungal community, and plant litter decomposition: a case study of avian-derived excreta deposition in conifer plantations. In: Young SS, Silvern SE, editors. Environmental Change and Sustainability. Rijeka, Croatia: InTech, pp. 173–196.
Parsons JL, Hellgren EC, Jorgensen EE, Leslie DM (2005). Neonatal growth and survival of rodents in response to variation in maternal dietary nitrogen: life history strategy vs dietary niche. Oikos 110: 297–308.
Peig J, Green AJ (2009). New perspectives for estimating body condition from mass/length data: the scaled mass index as an alternative method. Oikos 118: 1883–1891.
Peig J, Green AJ (2010). The paradigm of body condition: a critical reappraisal of current methods based on mass and length. Funct Ecol 24: 1323–1332.
Polis GA, Hurd SD (1996). Linking marine and terrestrial food webs: allochthonous input from the ocean supports high secondary productivity on small islands and coastal land communities. Am Nat 147: 396–423.
Prévot-Julliard AC, Henttonen H, Yoccoz NG, Stenseth NC (1999). Delayed maturation in female bank voles: optimal decision or social constraint? J Anim Ecol 6: 684–697.
Pūtys Ž (2012). Great Cormorant Phalacrocorax carbo sinensis Diet and its Effect on Fish Community in the Eutrophic Curonian Lagoon Ecosystem. Summary of PhD Dissertation. Vilnius, Lithuania: Institute of Ecology of Nature Research Centre, Vilnius University.
Ryan CP, Anderson WG, Gardiner LE, Hare JF (2012). Stress-induced sex ratios in ground squirrels: support for a mechanistic hypothesis. Behav Ecol 23:160–167.
Schulte-Hostedde AI, Zinner B, Millar JS, Hickling GJ (2005). Restitution of mass–size residuals: validating body condition indices. Ecology 86: 155–163.
Schweiger EW, Diffendorfer JE, Holt RD, Pierotti R, Gaines MS (2000). The interaction of habitat fragmentation, plant, and small mammal succession in an old field. Ecol Monogr 70: 383–400.
Stanevičius V, Paltanavičius S (1997). The Cormorant Phalacrocorax carbo in southern and eastern Lithuania. Ekologia Polska 45: 123–124.
Stevenson RD. Woods WA (2006). Condition indices for conservation: new uses for evolving tools. Integr Comp Biol 46: 1169–1190.
Tête N, Fritsch C, Afonso E, Coeurdassier M, Lambert JC, Giraudoux P, Scheifler R (2013). Can body condition and somatic indices be used to evaluate metal-induced stress in wild small mammals? PLoS ONE 8: e66399.
Velickovic M (2007). Measures of the developmental stability, body size and body condition in the black-striped mouse (Apodemus agrarius) as indicators of a disturbed environment in northern Serbia. Belg J Zool 137: 147–156.
Źółkóś K, Kukwa M, Afranowicz-Cieślak R (2013). Changes in the epiphytic lichen biota in the Scots pine (Pinus sylvestris) stands affected by a colony of grey heron (Ardea cinerea): a case study from northern Poland. Lichenologist 45: 815–823.
Źółkóś K, Markowski R (2006). Pressure of the Grey Heron breeding colony (Ardea cinerea) on the phytocoenosis of lowland acidophilous beech forest in the ‘Czapliniec w Wierzysku’ reserve (Kaszubskie Lake District). Biodiv Res Conserv 3–4: 337–339.