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51.
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Aim How important are frequent, low‐intensity disturbances to tree community dynamics of a cyclone‐prone forest? We tested the following hypotheses concerning the ‘inter‐cataclysm’ period on a remote Polynesian island: (1) tree turnover would be high and recruitment rates would be significantly higher than mortality; (2) low‐intensity disturbance would result in a marginal increase in tree mortality in the short term; (3) turnover would vary among species and would be associated with plant traits linked to differences in life history; and (4) mortality and recruitment events would be spatially non‐random. Location Tutuila, a volcanic island in the Samoan Archipelago, Polynesia. Methods We censused the tree (stem diameter ≥ 10 cm) community in 3.9 ha of tropical forest three times over a 10‐year period, 1998–2008. We calculated annual mortality, recruitment and turnover rates for 36 tree species. We tested for non‐random spatial patterns and predictors of mortality, and non‐random spatial patterns of tree recruitment. A 2004 cyclone passing within 400 km allowed us to measure the effects of a non‐cataclysmic disturbance on vital rates. Results Annual turnover was 2.8% and annual recruitment was 3.6%; these are some of the highest rates in the tropics, and likely to be a response to a cyclone that passed < 50 km from Tutuila in 1991. Species turnover rates over 10 years were negatively correlated with wood specific gravity, and positively correlated with annual stem diameter increment. Mortality was spatially aggregated, and a function of site, species and an individual’s growth rate. Recruitment was highest on ground with low slope. The low‐magnitude cyclone disturbance in 2004 defoliated 29% of all trees, but killed only 1.8% of trees immediately and increased annual mortality over 5 years by 0.7%. Main conclusions The inter‐cataclysm period on Tutuila is characterized by frequent, low‐amplitude disturbances that promote high rates of tree recruitment and create a dynamic, non‐equilibrium or disturbed island disequilibrium tree community. Species with low wood density and fast growth rates have enhanced opportunities for recruitment between cataclysms, but also higher probabilities of dying. Our results suggest that increases in the frequency of cyclone activity could shift relative abundances towards disturbance‐specialist species and new forest turnover rates. 相似文献
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The presence of litter has the potential to alter the population dynamics of plants. In this paper, we explore the effects
of litter on population dynamics using a simple experimental laboratory system with populations of the annual crucifer, Cardamine pensylvanica. Using a factorial experiment with four densities and three litter levels, we determined the effect of litter on biomass
and plant fecundity, and the life stages responsible for these changes in yield. Although litter had significant effects on
seed germination and on seedling survivorship, we show, using a population dynamics model, that these effects were not demographically
significant. Rather, the potential effect of litter on population dynamics resulted almost entirely from its effect on biomass.
Persistent litter suppressed plant biomass and apparently removed the direct density effect present in the absence of litter.
Thus, litter changed the shape of the recruitment curve from slightly humped to asymptotic. In addition to changing the shape
of the recruitment curve, litter reduced the carrying capacity of the populations. Thus, the population dynamics model indicated
that not all statistically significant responses were dynamically significant. Given the potential complexity of litter effects,
simple population models provide a powerful tool for understanding the potential consequences of short-term responses.
Received: 8 September 1999 / Accepted: 5 April 2000 相似文献
56.
Influence of Nutrient Availability on the Interaction Between Spotted Knapweed and Bluebunch Wheatgrass 总被引:2,自引:0,他引:2
Gretchen J. Herron Roger L. Sheley Bruce D. Maxwell Jeffrey S. Jacobsen 《Restoration Ecology》2001,9(3):326-331
Centaurea maculosa (Lam.) (spotted knapweed) reduces wildlife and livestock habitat biodiversity and increases erosion. Nutrient availability to plants may be used to accelerate succession away from spotted knapweed. Early‐successional plant communities often have high nutrient availability, whereas late‐successional communities are often found on lower nutrient soils. We hypothesized that removal of nutrients would change the competitive advantage from spotted knapweed to Pseudoroegneria spicatum (bluebunch wheatgrass) (late seral). In two addition series matrices, background densities of Secale cereale (annual rye) and Elymus elimoides (bottlebrush squirreltail) (3,000 seeds/m2) were used to remove nutrients from the soil. In another set of addition series matrices, nitrogen (33 kg/ha) or phosphorus (33 kg/ha) were added to the soil. Nutrient analysis of soil and vegetation indicated that annual rye and bottlebrush squirreltail reduced nutrient availability in soils. In another matrix, neither a background density nor nutrients were added. Data were fit into Watkinson's curvilinear model to determine the competitive relationship between bluebunch wheatgrass and spotted knapweed. This allowed comparison of the equivalence ratios (C) generated from each addition series. The C parameters are the per‐plant equivalent of bluebunch wheatgrass or spotted knapweed and can be interpreted as the ratio of intra‐to‐interspecific competition. The C parameters are also the equivalence ratio of the number of spotted knapweed it takes to have equivalent effect on bluebunch wheatgrass or the number of bluebunch wheatgrass having the equivalent effect on spotted knapweed. Without nutrient manipulation, spotted knapweed was more competitive than bluebunch wheatgrass. The C for bluebunch wheatgrass was 0.17, indicating that 0.17 knapweed plants were competitively equivalent to one wheatgrass. Annual rye changed the competitive balance in favor of bluebunch wheatgrass (C = 9.9). Addition of nitrogen, phosphorus, or the mid‐seral species did not change the competitive relationship between the two species. This preliminary study suggests that succession from spotted knapweed to late‐seral bluebunch wheatgrass community may be accelerated by altering resource availability. 相似文献
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Chaotic dynamics introduced in a recurrent neural network model is applied to controlling an object to track a moving target
in two-dimensional space, which is set as an ill-posed problem. The motion increments of the object are determined by a group
of motion functions calculated in real time with firing states of the neurons in the network. Several cyclic memory attractors
that correspond to several simple motions of the object in two-dimensional space are embedded. Chaotic dynamics introduced
in the network causes corresponding complex motions of the object in two-dimensional space. Adaptively real-time switching
of control parameter results in constrained chaos (chaotic itinerancy) in the state space of the network and enables the object
to track a moving target along a certain trajectory successfully. The performance of tracking is evaluated by calculating
the success rate over 100 trials with respect to nine kinds of trajectories along which the target moves respectively. Computer
experiments show that chaotic dynamics is useful to track a moving target. To understand the relations between these cases
and chaotic dynamics, dynamical structure of chaotic dynamics is investigated from dynamical viewpoint. 相似文献
59.