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Herbivore Effect on Stature, Fruiting, and Leaf Dynamics of a Native Crucifer
Author(s) -
Louda Svata M.
Publication year - 1984
Publication title -
ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.144
H-Index - 294
eISSN - 1939-9170
pISSN - 0012-9658
DOI - 10.2307/1939118
Subject(s) - herbivore , biology , phenology , silique , specific leaf area , botany , horticulture , forb , native plant , agronomy , grassland , introduced species , photosynthesis , biochemistry , arabidopsis thaliana , mutant , gene
The impact of a native, leaf—feeding chrysomelid beetle (Phaedon sp. nr. oviformis) on bittercress (Cardamine cordifolia: Cruciferae), was evaluated in an exclusion experiment. Multivariate statistical analysis showed a significant increase in plant performance in the rotenone exclusion compared to performance in the paired control treatment. Plant response to the reduction of herbivory was a complicated, interrelated syndrome of changes. When insects were excluded, the amount of missing leaf area decreased significantly (3.6—fold; 3.2—0.9 cm 2 per plant), and the total leaf area increased 5.7—fold (12.9—73.4 cm 2 per plant). Plant height (5.7—20.3 cm) and fruit production (0.1—3.9 siliques per plant) also increased significantly when the number of insects was reduced. Furthermore, the 570% expansion in leaf area due to the exclusion of insects involved signficant increases both in the initiation of new leaves and in the survival of mature leaves. Nevertheless, insect herbivory at a level well below complete defoliation (25% of the leaf area) changed leaf demography (both phenology and dynamics) and reduced plant perfomance by decreasing the plant stature, leaf area, and fruit production of this native forb. Thus, further experimental assessment is necessary before generalizations can be made regarding the effects of herbivory on plant dynamics.

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