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United States Department of Agriculture

Agricultural Research Service

Title: Competition Intensity and Species Evenness: Effects on Expression of Non-Complementary Interactions in Plant Species Mixtures

Authors
item Polley, Wayne
item Polley, Wayne
item Wilsey, Brian - IOWA STATE UNIVERSITY
item Wilsey, Brian - IOWA STATE UNIVERSITY
item Derner, Justin
item Derner, Justin

Submitted to: Ecological Society of America Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: July 1, 2002
Publication Date: August 4, 2002
Citation: Polley, H.W., Wilsey, B.J., Derner, J.D. Competition intensity and species evenness: effects on expression of non-complementary interactions in plant species mixtures. Ecological Society of America Annual Meeting Abstracts. 2002. p. 237-238.

Technical Abstract: Diversity is a function of species richness and evenness. Plant species richness influences primary productivity via mechanisms that (1) favor species with particular traits (non-complementarily) and (2) promote niche differentiation or facilitation between species (complementarily). Influences of evenness on productivity are poorly defined, but may depend on which of these two effects dominate in species mixtures. We grew three species of annuals (Gaillardia pulchella, Lolium perenne, and Monarda citriodora) in monocultures and in 3-species mixtures. Evenness and identity of the dominant species were varied in replicated mixtures at each of 3 density levels to assess effects of species abundances and competitive intensity on expression of the dominant mechanism determining biomass production of mixtures. Non-complementary interactions clearly governed production of these assemblages. Biomass of most mixtures was smaller than the average biomass of species monocultures, and mixtures consistently produced less than expected from monocultures (Relative Yield Total or RYT < 1). These trends reflected an inverse correlation among species between competitive ability and size at maturity. Contrary to expectation, RYT of mixtures was insensitive to both competitive intensity and species evenness. The grass Lolium performed relatively better in mixtures than in monocultures at high density, but the large disparity in size between forbs and Lolium masked expression of this trend in mixtures. These results demonstrate that non-complementary interactions may be insensitive to species evenness, and illustrate the central role that size differences among plants may play in mediating effects of diversity on productivity.

Submitted to: Ecological Society of America Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: July 1, 2002
Publication Date: August 4, 2002
Citation: Polley, H.W., Wilsey, B.J., Derner, J.D. Competition intensity and species evenness: effects on expression of non-complementary interactions in plant species mixtures. Ecological Society of America Annual Meeting Abstracts. 2002. p. 237-238.

Technical Abstract: Diversity is a function of species richness and evenness. Plant species richness influences primary productivity via mechanisms that (1) favor species with particular traits (non-complementarily) and (2) promote niche differentiation or facilitation between species (complementarily). Influences of evenness on productivity are poorly defined, but may depend on which of these two effects dominate in species mixtures. We grew three species of annuals (Gaillardia pulchella, Lolium perenne, and Monarda citriodora) in monocultures and in 3-species mixtures. Evenness and identity of the dominant species were varied in replicated mixtures at each of 3 density levels to assess effects of species abundances and competitive intensity on expression of the dominant mechanism determining biomass production of mixtures. Non-complementary interactions clearly governed production of these assemblages. Biomass of most mixtures was smaller than the average biomass of species monocultures, and mixtures consistently produced less than expected from monocultures (Relative Yield Total or RYT < 1). These trends reflected an inverse correlation among species between competitive ability and size at maturity. Contrary to expectation, RYT of mixtures was insensitive to both competitive intensity and species evenness. The grass Lolium performed relatively better in mixtures than in monocultures at high density, but the large disparity in size between forbs and Lolium masked expression of this trend in mixtures. These results demonstrate that non-complementary interactions may be insensitive to species evenness, and illustrate the central role that size differences among plants may play in mediating effects of diversity on productivity.

Last Modified: 7/24/2014
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