排序方式: 共有21条查询结果,搜索用时 281 毫秒
1.
Dagmar der Weduwen Graeme D. Ruxton 《Biological reviews of the Cambridge Philosophical Society》2019,94(5):1830-1838
Winged seeds, or samaras, are believed to promote the long‐distance dispersal and invasive potential of wind‐dispersed trees, but the full dispersive potential of these seeds has not been well characterised. Previous research on the ecology of winged seeds has largely focussed on the initial abscission and primary dispersal of the samara, despite it being known that the primary wind dispersal of samaras is often over short distances, with only rare escapes to longer distance dispersal. Secondary dispersal, or the movement of the seeds from the initial dispersal area to the site of germination, has been largely ignored despite offering a likely important mechanism for the dispersal of samaras to microhabitats suitable for establishment. Herein, we synthesise what is known on the predation and secondary dispersal of winged seeds by multiple dispersive vectors, highlighting gaps in knowledge and offering suggestions for future research. Both hydrochory and zoochory offer the chance for samaroid seeds to disperse over longer distances than anemochory alone, but the effects of the wing structure on these dispersal mechanisms have not been well characterised. Furthermore, although some studies have investigated secondary dispersal in samaroid species, such studies are scarce and only rarely track seeds from source to seedling. Future research must be directed to studying the secondary dispersal of samaras by various vectors, in order to elucidate fully the invasive and colonisation potential of samaroid trees. 相似文献
2.
3.
4.
With seeds collected monthly during one year from 53 1‐m2 seed traps, we investigated the seed rain and seed limitation in a gallery forest planted in 1994 in SE Brazil. Contrasting animal‐ (zoochorous) and wind‐dispersed (anemochorous) plants we investigated (1) which aspects of the composition and structure of the vegetation influence the abundance and species richness of the seed rain; (2) if such influences differ between zoochorous and anemochorous seeds; (3) if the abundance and richness of the seed rain sampled under zoochorous and nonzoochorous plant species differ; and (4) if seed limitation (given by the proportion of sites to which seeds were not dispersed) differs between zoochorous and anemochorous plant species, and also between species that have been planted and those that further colonized the area (colonists). Seed rain was intense and dominated by anemochorous species. The overall seed rain was not influenced by the vegetation parameters we analyzed (canopy height and cover, plant size, abundance, and richness) or by the plant species above the seed trap. The abundance and richness of zoochorous seeds in a given spot was influenced by the abundance and richness of zoochorous plants in its immediate vicinity. Seed limitation was higher for anemochorous than zoochorous species and higher for planted than for colonist species. We concluded with recommendations for the initial establishment of a planted forest, including the homogeneous distribution of zoochorous plants to permit a spatially homogeneous zoochorous seedfall, which will likely enhance the chances of survival and successful establishment of seeds. 相似文献
5.
An analysis of the flowering plant flora of a lowland moist forest in central French Guiana reveals 298 species with adaptations
for wind dispersal. This represents 16.2% of the flowering plant flora and 9.8% of the class Magnoliopsida (dicotyledons).
The most diverse wind-dispersed families are the Orchidaceae in the Liliopsida (monocotyledons) with 135 species and the Bignoniaceae
in the Magnoliopsida with 37 species. The wind-dispersed species of central French Guiana have evolved either small, dust-like
seeds, fruits or seeds with various kinds of wings, fruits or seeds with tufts of hairs, or expanded wing- or parachute-like
persistent calyces. Most wind-dispersed species, among the liliopsids, are epiphytes and, among the magnoliopsids, trees or
lianas. In central French Guiana, collections of these species with mature diaspores have been gathered most often in October
and March, the months with peak wind velocities. In contrast, collections from June and July, when wind velocities are at
a minimum, are rare. 相似文献
6.
Impact of the spatial uncertainty of seed dispersal on tree colonization dynamics in a temperate forest 总被引:1,自引:0,他引:1
Takashi Masaki Tohru Nakashizuka Kaoru Niiyama Hiroshi Tanaka Shigeo Iida James M. Bullock Shoji Naoe 《Oikos》2019,128(12):1816-1828
An aggregated distribution of dispersed seeds may influence the colonization process in tree communities via inflated spatial uncertainty. To evaluate this possibility, we studied 10 tree species in a temperate forest: one primarily barochorous, six anemochorous and two endozoochorous species. A statistical model was developed by combining an empirical seed dispersal kernel with a gamma distribution of seedfall density, with parameters that vary with distance. In the probability density, the fitted models showed that seeds of Fagaceae (primarily barochorous) and Betulaceae (anemochorous) were disseminated locally (i.e. within 60 m of a mother tree), whereas seeds of Acer (anemochorous) and endozoochorous species were transported farther. Greater fecundity compensated for the lower probability of seed dispersal over long distances for some species. Spatial uncertainty in seedfall density was much greater within 60 m of a mother tree than farther away, irrespective of dispersal mode, suggesting that seed dispersal is particularly aggregated in the vicinity of mother trees. Simulation results suggested that such seed dispersal patterns could lead to sites in the vicinity of a tree being occupied by other species that disperse seeds from far away. We speculate that this process could promote coexistence by making the colonization rates of the species more similar on average and equalizing species fitness in this temperate forest community. 相似文献
7.
Seed Banks in Savanna,Forest Fragments,and Continuous Forest Edges Differ in a Tropical Dry Forest in Madagascar 下载免费PDF全文
Kim Valenta Travis S. Steffens Radoniaina R. Rafaliarison Colin A. Chapman Shawn M. Lehman 《Biotropica》2015,47(4):435-440
Rapid deforestation has fragmented habitat across the landscape of Madagascar. To determine the effect of fragmentation on seed banks and the potential for forest regeneration, we sampled seed viability, density and diversity in 40 plots of 1 m2 in three habitat types: forest fragments, the near edge of continuous forest, and deforested savanna in a highly fragmented dry deciduous forest landscape in northwestern Madagascar. While seed species diversity was not different between forest fragments and continuous forest edge, the number of animal‐dispersed seeds was significantly higher in forest fragments than in continuous forest edge, and this pattern was driven by a single, small‐seeded species. In the savanna, seeds were absent from all but three of the 40 plots, indicating that regeneration potential is low in these areas. Several pre‐ and post‐dispersal biotic and abiotic factors, including variation in the seed predator communities and edge effects could explain these findings. Understanding the extent to which seed dispersal and seed banks influence the regeneration potential of fragmented landscapes is critical as these fragments are the potential sources of forest expansion and re‐connectivity. 相似文献
8.
9.
Zdeňka Lososová Irena Axmanová Milan Chytrý Gabriele Midolo Sylvain Abdulhak Dirk Nikolaus Karger Julien Renaud Jérémie Van Es Pascal Vittoz Wilfried Thuiller 《Global Ecology and Biogeography》2023,32(9):1485-1494
Motivation
Although dispersal ability is one of the key features determining the spatial dynamics of plant populations and the structure of plant communities, it is also one of the traits for which we still lack data for most species. We compiled a comprehensive dataset of seed dispersal distance classes and predominant dispersal modes for most European vascular plants. Our seed dispersal dataset can be used in functional biogeography, dynamic vegetation modelling and ecological studies at local to continental scales.Main Types of Variables Contained
Species were classified into seven ordered classes with similar dispersal distances estimated based on the predominant dispersal mode, the morphology of dispersal units (diaspores or propagules), life form, plant height, seed mass, habitat and known dispersal by humans. We evaluated our results by comparing them with dispersal distances calculated using the ‘dispeRsal’ function in R.Spatial Location
Europe.Time Period
Present.Major Taxa and Level of Measurement
The seed dispersal dataset contains information on dispersal distance classes and the predominant dispersal mode for 10,327 most frequent and locally dominant European vascular plant species.Software Format
Data are available in .csv format. 相似文献10.
Hartmut H. Hilger 《Plant biology (Stuttgart, Germany)》1981,94(1):677-687
Fruchtanatomische Untersuchungen von 13 Mattiastrum- und sechs Paracaryum-Arten (Boraginaceae) zeigen, daß der Perikarpbau weitgehend gattungsspezifisch ist. Die geflügelten Klausen unterscheiden sich in Flügelaufbau und -ausbildung. Alle Paracaryum-Arten besitzen einen großen Flügelhohlraum und nur auf der Flügelaußenseite das typische Cynoglosseae-Exokarp, dazu ist die Testaepidermis durchweg großzellig. Die Endokarpsteinzellen können besonders bei Mattiastrum und Paracaryum Sect. Paracaryum auf der Adaxialseite palisadenartig ausgebildet sein. Bei einigen Mattiastrum-Arten wird eine Achänenbildung diskutiert. 相似文献