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Tolerance of Gentianella campestris in relation to damage intensity: an interplay between apical dominance and herbivory (2000)

Huhta, Ari-Pekka ; Lennartsson, Tommy ; Tuomi, Juha ; [et al.]

Springer

Evolutionary ecology 14 (2000), S. 373-392

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ISSN: 1573-8477

Keywords: apical dominance ; Gentianella ; grazing tolerance ; herbivory ; meristem allocation ; overcompensation ; shoot architecture

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Meristem allocation models suggest that the patterns of compensatory regrowth responses following grazing vary, depending on (i) the number of latent meristems that escape from being damaged, and (ii) the activation sensitivity of the meristems in relation to the degree of damage. We examined the shape of compensatory responses in two late-flowering populations (59°20′N and 65°45′N) of the field gentian. Plants of equal initial sizes were randomly assigned to four treatment groups with 0, 10, 50 and 75% removal of the main stalk. The plants were clipped before flowering, and their performance was studied at the end of the growing season. The northern population showed a linear decrease in shoot biomass and fecundity with increasing biomass removal, while the response in the southern population was quadratic with maximum performance at the damage level of 50% clipping. This nonlinear shape depended upon the activation sensitivity of dormant meristems in relation to their position along the main stem. The highest plant performance was achieved by inflicting intermediate damage which induced regrowth from basally located meristems. In contrast, the topmost branches took over the dominance role of the main stem after minor apical damage (10% clipping). Consequently, the breakage of apical dominance is a necessary precondition of vigorous regrowth in this species. However, compensation in the field gentian is unlikely to be a mere incidental by-product of apical dominance. The ability to regrow from basally located meristems that escape from being damaged by grazing may well be a sign of adaptation to moderate levels of shoot damage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1011028722860

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A test of the compensatory continuum: fertilization increases and below-ground competition decreases the grazing tolerance of tall wormseed mustard (Erysimum strictum) (2000)

Huhta, Ari-Pekka ; Hellström, Kalle ; Rautio, Pasi ; [et al.]

Springer

Evolutionary ecology 14 (2000), S. 353-372

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ISSN: 1573-8477

Keywords: apical dominance ; bet-hedging ; compensatory continuum ; competition ; Erysimum ; monocarps ; nutrient availability ; overcompensation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Contrary to the general expectation, the compensatory continuum hypothesis proposes that grazing may not always affect plant performance adversely. Instead, the effects may vary from negative (undercompensation) to positive (overcompensation), depending on the local availability of resources and the intensity of competition experienced by individual plants. We tested this hypothesis in a common garden experiment by growing tall wormseed mustard, Erysimum strictum, under a factorial design involving simulated grazing (0, 10, or 50% of the main stem clipped), supplemental fertilization and below-ground competition. The results supported the hypothesis. On an average, fertilization increased and competition decreased plant performance. Overcompensation was only observed among the fertilized plants growing free of competition. Simulated grazing increased seed yield 1.6 (10% clipping) and 1.4 times (50% clipping) as compared to unclipped plants when the plants were grown with fertilization and without competition. In contrast, clipping did not significantly increase seed yield in the plants grown without fertilization and/or with competition. The breakage of apical dominance provides a proximate mechanism of these regrowth responses. This is consistent with the fact that most plants (85%) had an unbranched shoot architecture in our study population. However, it is not clear why E. strictum has a relatively unbranched architecture in natural populations. We briefly discuss the alternative ecological factors – competition for light, adaptation to herbivory and optimal timing of flowering as a bet-hedging strategy in monocarpic plants – which might maintain unbranched architecture in this species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1010808925284

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