TY - JOUR
T1 - Plant density and nutrient availability constrain constitutive and wound-induced expression of trypsin inhibitors in Brassica napus
AU - Cipollini, Donald F.
AU - Bergelson, Joy
N1 - Funding Information:
Acknowledgments—We thank Jennifer Olecziewski, Sylvia Woods, Jeremiah Busch, Sandra Suwanski, John Zdenek, and Ken Yliniemi for technical assistance. Suggestions by Tom Juenger, Kendra Cipollini, Jim Coleman, Colin Orians, and one anonymous reviewer substantially improved this manuscript. We acknowledge financial support from Wright State University (to D.F.C.) and the Packard Foundation (to J.B.)
PY - 2001
Y1 - 2001
N2 - We investigated the effects of plant density on plant size, leaf total soluble protein content, and constitutive and wound-induced levels of proteinaceous trypsin inhibitors in pot-grown Brassica napus seedlings in two greenhouse studies. We manipulated plant density by varying the number of intraspecific neighbors surrounding a target plant in the center of each pot. In general, constitutive and induced levels of trypsin inhibitors were significantly reduced by competition in a density-dependent manner, to the extent that induction was greatly reduced or abolished in target plants surrounded by six neighbors. To investigate whether the effects of plant density on inhibitor production were mediated by nutrient availability, we manipulated the concentration of a complete fertilizer applied to target plants surrounded by six neighbors in two greenhouse studies. In general, constitutive and wound-induced levels of inhibitors in plants surrounded by six neighbors were increased by nutrient addition in a dose-dependent manner, such that wound-induction was completely restored in competing plants under conditions of high nutrient availability. Leaf total soluble protein content, measured only in the second trial of each experiment, was not affected by any of the treatments. The effects of plant density, nutrient addition, and wounding on inhibitor levels in all experiments were independent of their effecs on above-ground plant size at the time of wounding. Overall, our results suggest that decreasing nutrient availability mediates the density-dependent reductions in inhibitor levels in B. napus seedings.
AB - We investigated the effects of plant density on plant size, leaf total soluble protein content, and constitutive and wound-induced levels of proteinaceous trypsin inhibitors in pot-grown Brassica napus seedlings in two greenhouse studies. We manipulated plant density by varying the number of intraspecific neighbors surrounding a target plant in the center of each pot. In general, constitutive and induced levels of trypsin inhibitors were significantly reduced by competition in a density-dependent manner, to the extent that induction was greatly reduced or abolished in target plants surrounded by six neighbors. To investigate whether the effects of plant density on inhibitor production were mediated by nutrient availability, we manipulated the concentration of a complete fertilizer applied to target plants surrounded by six neighbors in two greenhouse studies. In general, constitutive and wound-induced levels of inhibitors in plants surrounded by six neighbors were increased by nutrient addition in a dose-dependent manner, such that wound-induction was completely restored in competing plants under conditions of high nutrient availability. Leaf total soluble protein content, measured only in the second trial of each experiment, was not affected by any of the treatments. The effects of plant density, nutrient addition, and wounding on inhibitor levels in all experiments were independent of their effecs on above-ground plant size at the time of wounding. Overall, our results suggest that decreasing nutrient availability mediates the density-dependent reductions in inhibitor levels in B. napus seedings.
KW - Adaptive phenotypic plasticity
KW - Brassica napus
KW - Competition
KW - Constraints
KW - Costs of defense
KW - Induced defense
KW - Insect herbivory
KW - Proteinase inhibitors
KW - Trypsin inhibitors
KW - Wounding
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U2 - 10.1023/A:1010384805014
DO - 10.1023/A:1010384805014
M3 - Article
C2 - 11441448
AN - SCOPUS:0034990529
SN - 0098-0331
VL - 27
SP - 593
EP - 610
JO - Journal of Chemical Ecology
JF - Journal of Chemical Ecology
IS - 3
ER -