PEER-REVIEWED PUBLICATIONS

41.) Moore, P.A. and Crimaldi, J. 2004. Odor landscapes and animal behavior: tracking odor plumes in different physical worlds. J. Mar. Science. 49:55-64.

23.) Moore, P.A., Grills, J., and Schneider, R.W.S. 2000. Habitat specific signal structure for olfaction: an example from artificial streams. J. Chem. Ecol. 26:565-584. (5)

18.) Moore, P.A., Fields, D.M., and Yen, J. 1999. Physical Constraints of Chemoreception in Foraging Copepods. Limnol. & Oceanogr. 44:166-177. (10)

8.) Moore, P.A., Atema, J., and Gerhardt, G.A. 1992. The structure of environmental odor signals: from turbulent dispersion to movement through boundary layers and mucus, pp.79-83 In: Chemical Signals in Vertebrates VI. Doty, R.L. and Müller-Schwarze, D. (eds.). Plenum Press, N.Y.

7.) Moore, P.A., Zimmer-Faust, R.K., BeMent, S.L., Weissburg, M.J., Parrish, J.M., and Gerhardt, G.A. 1992. Measurement of microscale patchiness in a turbulent aquatic odor plume using a semiconductor-based microprobe. Biol. Bull. 183:138-142. (20)

4.) Moore, P.A., and Atema, J. 1991. Spatial information in the three-dimensional fine structure of an aquatic odor plume. Biol. Bull. 181:408-418. (70)

3.) Atema, J., Moore, P.A., Madin, L. and Gerhardt, G.A. 1991. Subnose-I: Tracking odor plumes at 900 meters beneath the ocean surface. Marine Ecology Progress Series 74:303-306. (10)

2.) Moore, P.A., Gerhardt, G.A., and Atema, J. 1989. High resolution spatio-temporal analysis of aquatic chemical signals using microelectrochemical electrodes. Chem. Senses 14:829-840. (41)

1.) Moore, P.A., and Atema, J. 1988. A model of a temporal filter in chemoreception to extract directional information from a turbulent odor plume Biol. Bull. 174:355-363. (38)