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991.
992.
Disturbance persistence in managed grasslands: shifts in aboveground community structure and the weed seed bank 总被引:2,自引:0,他引:2
The length of time and form in which disturbances persist in systems depends on the intensity and frequency of disturbance
and on the abilities of resident species to recover from such events. In grazed grasslands, trampling by large mammalian herbivores
can periodically facilitate weed establishment by exposing patches of bare ground but whether an intense soil disturbance
event results in a temporary increase in weed abundance or a persistent weed problem remains unclear. In May 2002, cattle
trampling following heavy rain caused severe damage to nine-month old, rotationally grazed, cool-season pastures (Midwest
USA). In September 2002, we compared the aboveground composition of paddocks (i.e., fenced pasture sections) that were heavily
disturbed to those that received no damage. Relative to undisturbed paddocks, forage species relative cover was 17% lower
in disturbed paddocks, and weed species and bare ground relative cover was 61% and 100% higher, respectively. By September
2004, paddock types did not differ in all aboveground community components. However, the abundance and species richness of
weed seeds in the soil seed bank averaged respectively 82% and 30% higher in disturbed paddocks between 2003 and 2004. These
findings indicate that a spatially extensive, intense soil disturbance event may soon become undetectable in components of
aboveground pasture structure but can persist as an augmented weed seed bank. Because of high weed seed bank longevity, disturbances
to formerly disturbed pastures would likely result in higher weed recruitment, with more species represented, than in those
which lack previous disturbance. Disturbance history may thus be a useful predictor of weed community composition following
subsequent disturbance. Based on empirical data supporting this proposition, we recommend that grassland managers explicitly
incorporate disturbance history into dynamic management planning and do not rely exclusively on aboveground characters to
evaluate the invasion status or colonization potential of an area by undesirable plants. We emphasize that the ecological
legacies of past soil disturbance events cannot only influence the contemporary patterns and processes of grasslands, but
importantly, affect their compositional trajectories following subsequent perturbation. 相似文献
993.
The ability of weeds to form a seed bank is important for their population dynamics and management because it provides a refuge
enabling reinvasion after established target plants have died. However, knowledge of the differential seed behaviour of individual
species over multiple years and varying environmental conditions is surprisingly rare but necessary for effective control
of diverse weed populations. We established a seed burial experiment in alpine habitats differing in management regime (i.e.,
forest, hay meadow and pasture) to determine whether seeds of the unpalatable perennial weeds, Veratrum album (white hellebore) and Gentiana lutea (yellow gentian) were able to delay germination and remain viable over 3 years. Our study shows that both species formed
a short-term persistent seed bank; in the third-year, the soil seed banks of both species were nearly depleted, having declined
to <5% of their original size. Both species had strikingly different germination strategies: G. lutea seeds mainly germinated in their first-year, whilst the majority of V. album seeds germinated in their second-year. The fraction of dormant G. lutea seeds increased with seed age, indicating that seeds remained viable after forgoing germination in the previous year. Habitat-specific
differences in seed germination increased with seed age, with germination fractions being lowest in moist hay meadows. This
suggests that the negative effects of anoxic conditions became more pronounced as seeds aged in hay meadows. Conversely, seed
dormancy was equal among habitats. The absence of a long-term persistent seed bank has important implications for the management
of both nuisance and endangered-plant populations. In the case of V. album and G. lutea, re-colonization of habitats from the seed bank is unlikely after established plants have been removed. 相似文献
994.
995.
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997.
种子的选择性败育在被子植物中普遍存在,开展结籽格局及其影响因素的研究有助于深入了解种子的形成机制及多样化的生殖对策。以刺叶锦鸡儿Caragana acanthophylla为材料,通过传粉过程、胚珠发育动态和资源分配状况的研究,以探讨种子的选择性败育格局及相关影响因素。结果显示:(1)刺叶锦鸡儿具高度自交不亲和性,为泛化的传粉系统,蜂类是主要的传粉者。自然状态的结实率为(86.00±4.96)%,不存在传粉限制,但受精具明显的时间效应。(2)刺叶锦鸡儿单花期4—5d,每朵花有(14.00±0.14)粒胚珠。胚珠的发育从荚果顶部开始,其中,开花后第3天荚果顶部胚珠开始膨大;第11天绝大多数胚珠出现了膨大,此时,在荚果基部的胚珠开始败育,随后荚果顶端受精后的胚珠也出现败育,最终仅荚果中部形成2—3粒种子。其结籽格局为成熟荚果中部胚珠,而败育荚果顶部和基部胚珠的选择性败育类型。(3)受微地形影响,居群内开花植株具斑块分布,对较少开花植株通过添加水肥进行资源调控后,结籽率显著提高,说明在种子形成过程中存在资源限制。综上所述,受精顺序和资源限制两个互逆的资源梯度决定了刺叶锦鸡儿的结籽格局。其中,... 相似文献
998.
Fan Yang Jerry M. Baskin Carol C. Baskin Xuejun Yang Dechang Cao Zhenying Huang 《Annals of botany》2015,115(1):137-145
Background and Aims Diaspores of heteromorphic species may germinate at different times due to distinct dormancy-breaking and germination requirements, and this difference can influence life history traits. The primary aim of this study was to determine the effect of germination time of the two seed morphs of Suaeda corniculata subsp. mongolica on life history traits of the offspring.Methods Germinated brown and black seeds were sown on the 20th of each month from April to September in a simulated but near-natural habitat of the species. Phenological and vegetative traits of the maternal plants, and number, size and germination percentage of the offspring were determined.Key Results Germinated seeds sown late in the year produced smaller plants that had a higher proportion of non-dormant brown than dormant black seeds, and these brown seeds were larger than those produced by germinated seeds sown early in the year. The length of the seedling stage for brown seeds was shorter than that for black seeds, and the root/shoot ratio and reproductive allocation of plants from brown seeds were more variable than they were for plants from black seeds. Late-germinating brown seeds produced larger plants than late-germinating black seeds.Conclusions Altering the proportion of the two seed types in response to germination timing can help alleviate the adverse effects of delayed germination. The flexible strategy of a species, such as S. corniculata, that produces different proportions of dimorphic seeds in response to variation in germination timing may favour the maintenance and regeneration of the population in its unpredictable environment. 相似文献
999.
Andrea Mondoni Simone Pedrini Giulietta Bernareggi Graziano Rossi Thomas Abeli Robin J. Probert Michele Ghitti Costantino Bonomi Simone Orsenigo 《Annals of botany》2015,116(6):907-916
Background and Aims Glacier foreland plants are highly threatened by global warming. Regeneration from seeds on deglaciated terrain will be crucial for successful migration and survival of these species, and hence a better understanding of the impacts of climate change on seedling recruitment is urgently needed to predict future plant persistence in these environments. This study presents the first field evidence of the impact of climate change on recruitment success of glacier foreland plants.Methods Seeds of eight foreland species were sown on a foreland site at 2500 m a.s.l., and at a site 400 m lower in altitude to simulate a 2·7 °C increase in mean annual temperature. Soil from the site of origin was used to reproduce the natural germination substrate. Recruitment success, temperature and water potential were monitored for 2 years. The response of seed germination to warming was further investigated in the laboratory.Key Results At the glacier foreland site, seedling emergence was low (0 to approx. 40 %) and occurred in summer in all species after seeds had experienced autumn and winter seasons. However, at the warmer site there was a shift from summer to autumn emergence in two species and a significant increase of summer emergence (13–35 % higher) in all species except two. Survival and establishment was possible for 60–75 % of autumn-emerged seedlings and was generally greater under warmer conditions. Early snowmelt in spring caused the main ecological factors enhancing the recruitment success.Conclusions The results suggest that warming will influence the recruitment of glacier foreland species primarily via the extension of the snow-free period in spring, which increases seedling establishment and results in a greater resistance to summer drought and winter extremes. The changes in recruitment success observed here imply that range shifts or changes in abundance are possible in a future warmer climate, but overall success may be dependent on interactions with shifts in other components of the plant community. 相似文献
1000.
James Wesley-Smith Christina Walters N. W. Pammenter Patricia Berjak 《Annals of botany》2015,115(6):991-1000
Background and Aims Conservation of the genetic diversity afforded by recalcitrant seeds is achieved by cryopreservation, in which excised embryonic axes (or, where possible, embryos) are treated and stored at temperatures lower than −180 °C using liquid nitrogen. It has previously been shown that intracellular ice forms in rapidly cooled embryonic axes of Acer saccharinum (silver maple) but this is not necessarily lethal when ice crystals are small. This study seeks to understand the nature and extent of damage from intracellular ice, and the course of recovery and regrowth in surviving tissues.Methods Embryonic axes of A. saccharinum, not subjected to dehydration or cryoprotection treatments (water content was 1·9 g H2O g−1 dry mass), were cooled to liquid nitrogen temperatures using two methods: plunging into nitrogen slush to achieve a cooling rate of 97 °C s−1 or programmed cooling at 3·3 °C s−1. Samples were thawed rapidly (177 °C s−1) and cell structure was examined microscopically immediately, and at intervals up to 72 h in vitro. Survival was assessed after 4 weeks in vitro. Axes were processed conventionally for optical microscopy and ultrastructural examination.Key Results Immediately following thaw after cryogenic exposure, cells from axes did not show signs of damage at an ultrastructural level. Signs that cells had been damaged were apparent after several hours of in vitro culture and appeared as autophagic decomposition. In surviving tissues, dead cells were sloughed off and pockets of living cells were the origin of regrowth. In roots, regrowth occurred from the ground meristem and procambium, not the distal meristem, which became lethally damaged. Regrowth of shoots occurred from isolated pockets of surviving cells of peripheral and pith meristems. The size of these pockets may determine the possibility for, the extent of and the vigour of regrowth.Conclusions Autophagic degradation and ultimately autolysis of cells following cryo-exposure and formation of small (0·2–0·4 µm) intracellular ice crystals challenges current ideas that ice causes immediate physical damage to cells. Instead, freezing stress may induce a signal for programmed cell death (PCD). Cells that form more ice crystals during cooling have faster PCD responses. 相似文献