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Courses Taught
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Education
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*Summer Course at Chincoteague Bay Field Station |
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Publications and Honors
Atkinson, C.L., A.D. Christian, D. E. Spooner, and C.C. Vaughn. 2014. Long-lived organisms provide an integrative footprint of agricultural land use. Ecological Applications 24(2): 375-384.
Newton, Teresa J., C. C. Vaughn, D. E. Spooner, and M. Arts. 2013. Profiles of biochemical tracers in unionid mussels across a broad geographic range. Journal of Shellfish Research 32(2): 497-507.
Spooner, D. E., et al. 2013. Nutrient loading associated with agriculture land use dampens the importance of consumer‐mediated niche construction. Ecology Letters 16(9):1115-1125.
Spooner, D. E., et al. 2012. Species traits and environmental conditions determine congruence of biodiversity effects across adjacent trophic levels. Oecologia 168(2): 533-548.
Spooner, D. E., and C. C. Vaughn 2012. Species’ dominance and environmental gradients interact to govern primary productivity in freshwater mussel communities. Oikos 3: 403-416.
McFeeters, B. J, M.A. Xenopoulos, D. E. Spooner, N. D. Wagner, and P. C. Frost. 2011. Intraspecific mass-scaling of metabolic rates of a freshwater crayfish varies with land cover. Ecosphere 2(2): 1-12.
Newton, Teresa J., C. C. Vaughn, D. E. Spooner, and M. Arts. 2013. Profiles of biochemical tracers in unionid mussels across a broad geographic range. Journal of Shellfish Research 32(2): 497-507.
Spooner, D. E., et al. 2013. Nutrient loading associated with agriculture land use dampens the importance of consumer‐mediated niche construction. Ecology Letters 16(9):1115-1125.
Spooner, D. E., et al. 2012. Species traits and environmental conditions determine congruence of biodiversity effects across adjacent trophic levels. Oecologia 168(2): 533-548.
Spooner, D. E., and C. C. Vaughn 2012. Species’ dominance and environmental gradients interact to govern primary productivity in freshwater mussel communities. Oikos 3: 403-416.
McFeeters, B. J, M.A. Xenopoulos, D. E. Spooner, N. D. Wagner, and P. C. Frost. 2011. Intraspecific mass-scaling of metabolic rates of a freshwater crayfish varies with land cover. Ecosphere 2(2): 1-12.
