TY - JOUR
T1 - Modeling territory attendance and preening behavior in a seabird colony as functions of environmental conditions
AU - Henson, Shandelle M.
AU - Galusha, Joseph G.
AU - Hayward, James L.
AU - Cushing, J. M.
N1 - Funding Information:
We thank K. Ryan, U.S. Department of the Interior Fish and Wildlife Service, for permission to work on Protection Island National Wildlife Refuge; Walla Walla College Marine Station for logistical support; S.P. Damania, K.W. Phillips, and N.J. Wilson for field assistance. This research was supported by Andrews University faculty grants (S.M.H. and J.L.H.) and U.S. National Science Foundation grants DMS 0314512 (S.M.H. and J.L.H.), DMS 0613899 (S.M.H., J.L.H. and J.M.C.), and DMS 0614473 (J.G.G.).
PY - 2007/1
Y1 - 2007/1
N2 - In previous studies we developed a general compartmental methodology for modeling animal behavior and applied the methodology to marine birds and mammals. In this study we used the methodology to construct a system of two differential equations to model the dynamics of territory attendance and preening in a gull colony on Protection Island, Strait of Juan de Fuca, Washington. We found that colony occupancy was driven primarily by abiotic environmental conditions, including tide height, time of day, solar elevation, and wind speed over open water. For birds in the colony, preening behavior was driven to some extent by abiotic environmental conditions (including time of day, solar elevation, humidity, and wind speed on the colony), but apparently was driven primarily by local and/or biotic effects not included in the model. In terms of R 2 values, the model explained 65% and 37% of the variability in colony occupancy and preening data, respectively, as a function of these six abiotic environmental factors.
AB - In previous studies we developed a general compartmental methodology for modeling animal behavior and applied the methodology to marine birds and mammals. In this study we used the methodology to construct a system of two differential equations to model the dynamics of territory attendance and preening in a gull colony on Protection Island, Strait of Juan de Fuca, Washington. We found that colony occupancy was driven primarily by abiotic environmental conditions, including tide height, time of day, solar elevation, and wind speed over open water. For birds in the colony, preening behavior was driven to some extent by abiotic environmental conditions (including time of day, solar elevation, humidity, and wind speed on the colony), but apparently was driven primarily by local and/or biotic effects not included in the model. In terms of R 2 values, the model explained 65% and 37% of the variability in colony occupancy and preening data, respectively, as a function of these six abiotic environmental factors.
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U2 - 10.1080/17513750601032679
DO - 10.1080/17513750601032679
M3 - Article
C2 - 22880615
AN - SCOPUS:58849085883
SN - 1751-3758
VL - 1
SP - 95
EP - 107
JO - Journal of biological dynamics
JF - Journal of biological dynamics
IS - 1
ER -