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1.
Ralf Uptmoor Tobias Schrag Hartmut Stützel Elisabeth Esch 《Molecular breeding : new strategies in plant improvement》2008,21(2):205-216
Studying quantitative traits is complicated due to genotype by environment interactions. One strategy to overcome these difficulties
is to combine quantitative trait loci (QTL) and ecophysiological models, e.g. by identifying QTLs for the response curves
of adaptive traits to influential environmental factors. A B. oleracea DH-population segregating for time to flowering was cultivated at different temperature regimes. Composite interval mapping
was carried out on the three parameters of a model describing time to flowering as a function of temperature, i.e. on the
intercept and slope of the response of time to floral induction to temperature and on the duration from transition to flowering.
The additive effects of QTLs detected for the parameters have been used to estimate time to floral induction and flowering
in the B. oleracea DH-population. The combined QTL and crop model explained 66% of the phenotypic variation for time to floral induction and
56% of the phenotypic variation for time to flowering. Estimation of time to floral induction and flowering based on environment
specific QTLs explained 61 and 41% of the phenotypic variation. Results suggest that flowering time can be predicted effectively
by coupling QTL and crop models and that using crop modelling tools for QTL analysis increases the power of QTL detection. 相似文献
2.
Andrew J. Denham 《Plant Ecology》2008,199(1):9-19
Seed predation may reduce recruitment in populations that are limited by the availability of seeds rather than microsites.
Fires increase the availability of both seeds and microsites, but in plants that lack a soil- or canopy-stored seed bank,
post-fire recruitment is often delayed compared to the majority of species. Pyrogenic flowering species, such as Telopea speciosissima, release their non-dormant seeds more than 1 year after fire, by which time seed predation and the availability of microsites
may differ from that experienced by plants recruiting soon after fire. I assessed the role of post-dispersal seed predation
in limiting seedling establishment after fire in T. speciosissima, in southeastern Australia. Using a seed-planting experiment, I manipulated vertebrate access to seeds and the combined cover
of litter and vegetation within experimental microsites in the 2 years of natural seed fall after a fire. Losses to vertebrate
and invertebrate seed predators were rapid and substantial, with 50% of seeds consumed after 2 months in exposed locations
and after 5 months when vertebrates were excluded. After 7 months, only 6% of seeds or seedlings survived, even where vertebrates
were excluded. Removing litter and vegetation increased the likelihood of seed predation by vertebrates, but had little influence
on losses due to invertebrates. Microsites with high-density vegetation and litter cover were more likely to have seed survival
or germination than microsites with low-density cover. Recruitment in pyrogenic flowering species may depend upon the release
of seeds into locations where dense cover may allow them to escape from vertebrate predators. Even here, conditions suitable
for germination must occur soon after seed release for seeds to escape from invertebrate predators. Seed production will also
affect recruitment after any one fire, while the ability of some juvenile and most adult plants to resprout after fire buffers
populations against rapid declines when there is little successful recruitment. 相似文献
3.
六盘山地区油松树轮宽度年表与多尺度标准化降水指数的关系 总被引:1,自引:0,他引:1
研究利用在六盘山地区采集的油松树轮样芯建立树轮宽度标准年表(STD),分别与不同长度时间单元(月、半月、旬)和多时间尺度的标准化降水指数(SPIn)序列进行相关性分析。油松标准年表与不同长度时间单元SPI的相关结果显示,较小的时间单元会使相关性表达更加精确,而时间单元过小则会因为数据波动性增大而导致相关关系弱化。因此,相较于月和旬,半月是相关性分析更为合适的时间单元长度。油松标准年表与多时间尺度SPI的相关结果显示,SPI多时间尺度的特性有助于揭示油松径向生长对不同时间尺度水分状况的响应特征,且油松在不同生长时期对于不同时间尺度水分状况具有相异的响应机制。在温度较低(0℃)的冬季,短时间内的降水并不利于树木生长,而长时间良好的水分储备会为树木生长季需水提供保障;在生长季前期,长时间良好的水分状况比短期内的降水更有利于树木的生长;在生长季,补给性水分和土壤水分都对树木生长起着至关重要的作用。 相似文献
4.
Osmotic stress decreases complexity underlying the electrophysiological dynamic in soybean 下载免费PDF全文
- Studies on plant electrophysiology are mostly focused on specific traits of single cells. Inspired by the complexity of the signalling network in plants, and by analogy with neurons in human brains, we sought evidence of high complexity in the electrical dynamics of plant signalling and a likely relationship with environmental cues.
- An EEG‐like standard protocol was adopted for high‐resolution measurements of the electrical signal in Glycine max seedlings. The signals were continuously recorded in the same plants before and after osmotic stimuli with a ?2 MPa mannitol solution. Non‐linear time series analyses methods were used as follows: auto‐correlation and cross‐correlation function, power spectra density function, and complexity of the time series estimated as Approximate Entropy (ApEn).
- Using Approximate Entropy analysis we found that the level of temporal complexity of the electrical signals was affected by the environmental conditions, decreasing when the plant was subjected to a low osmotic potential. Electrical spikes observed only after stimuli followed a power law distribution, which is indicative of scale invariance.
- Our results suggest that changes in complexity of the electrical signals could be associated with water stress conditions in plants. We hypothesised that the power law distribution of the spikes could be explained by a self‐organised critical state (SOC) after osmotic stress.
5.
Multiple origins of Hawaiian drosophilids: Phylogeography of Scaptomyza Hardy (Diptera: Drosophilidae) 下载免费PDF全文
Toru Katoh Hiroyuki F. Izumitani Shinji Yamashita Masayoshi Watada 《Entomological Science》2017,20(1):33-44
Scaptomyza is a highly diversified genus in the family Drosophilidae, having undergone an explosive radiation, along with the Hawaiian‐endemic genus Idiomyia in the Hawaiian Islands: about 60% of 269 Scaptomyza species so far described are endemic to the Hawaiian Islands. Two hypotheses have been proposed for the origin and diversification of Hawaiian drosophilids. One is the “single Hawaiian origin” hypothesis: Scaptomyza and Idiomyia diverged from a single common ancestor that had once colonized the Hawaiian Islands, and then non‐Hawaiian Scaptomyza migrated back to continents. The other is the “multiple origins” hypothesis: Hawaiian Scaptomyza and Idiomyia derived from different ancestors that independently colonized the Hawaiian Islands. A key issue for testing these two hypotheses is to clarify the phylogenetic relationships between Hawaiian and non‐Hawaiian species in Scaptomyza. Toward this goal, we sampled additional non‐Hawaiian Scaptomyza species, particularly in the Old World, and determined the nucleotide sequences of four mitochondrial and seven nuclear genes for these species. Combining these sequence data with published data for 79 species, we reconstructed the phylogeny and estimated ancestral distributions and divergence times. In the resulting phylogenetic trees, non‐Hawaiian Scaptomyza species were interspersed in two Hawaiian clades. From a reconstruction of ancestral biogeography, we inferred that Idiomyia and Scaptomyza diverged outside the Hawaiian Islands and then independently colonized the Hawaiian Islands, twice in Scaptomyza, thus supporting the “multiple origins” hypothesis. 相似文献
6.
Predicting the effects of climate change on population connectivity and genetic diversity of an imperiled freshwater mussel,Cumberlandia monodonta (Bivalvia: Margaritiferidae), in riverine systems 下载免费PDF全文
In the face of global climate change, organisms may respond to temperature increases by shifting their ranges poleward or to higher altitudes. However, the direction of range shifts in riverine systems is less clear. Because rivers are dendritic networks, there is only one dispersal route from any given location to another. Thus, range shifts are only possible if branches are connected by suitable habitat, and stream‐dwelling organisms can disperse through these branches. We used Cumberlandia monodonta (Bivalvia: Unionoida: Margaritiferidae) as a model species to investigate the effects of climate change on population connectivity because a majority of contemporary populations are panmictic. We combined ecological niche models (ENMs) with population genetic simulations to investigate the effects of climate change on population connectivity and genetic diversity of C. monodonta. The ENMs were constructed using bioclimatic and landscape data to project shifts in suitable habitat under future climate scenarios. We then used forward‐time simulations to project potential changes in genetic diversity and population connectivity based on these range shifts. ENM results under current conditions indicated long stretches of highly suitable habitat in rivers where C. monodonta persists; populations in the upper Mississippi River remain connected by suitable habitat that does not impede gene flow. Future climate scenarios projected northward and headwater‐ward range contraction and drastic declines in habitat suitability for most extant populations throughout the Mississippi River Basin. Simulations indicated that climate change would greatly reduce genetic diversity and connectivity across populations. Results suggest that a single, large population of C. monodonta will become further fragmented into smaller populations, each of which will be isolated and begin to differentiate genetically. Because C. monodonta is a widely distributed species and purely aquatic, our results suggest that persistence and connectivity of stream‐dwelling organisms will be significantly altered in response to future climate change. 相似文献
7.
Estimating the ability of plants to plastically track temperature‐mediated shifts in the spring phenological optimum 下载免费PDF全文
Christine J. Tansey Jarrod D. Hadfield Albert B. Phillimore 《Global Change Biology》2017,23(8):3321-3334
One consequence of rising spring temperatures is that the optimum timing of key life‐history events may advance. Where this is the case, a population's fate may depend on the degree to which it is able to track a change in the optimum timing either via plasticity or via adaptation. Estimating the effect that temperature change will have on optimum timing using standard approaches is logistically challenging, with the result that very few estimates of this important parameter exist. Here we adopt an alternative statistical method that substitutes space for time to estimate the temperature sensitivity of the optimum timing of 22 plant species based on >200 000 spatiotemporal phenological observations from across the United Kingdom. We find that first leafing and flowering dates are sensitive to forcing (spring) temperatures, with optimum timing advancing by an average of 3 days °C?1 and plastic responses to forcing between ?3 and ?8 days °C?1. Chilling (autumn/winter) temperatures and photoperiod tend to be important cues for species with early and late phenology, respectively. For most species, we find that plasticity is adaptive, and for seven species, plasticity is sufficient to track geographic variation in the optimum phenology. For four species, we find that plasticity is significantly steeper than the optimum slope that we estimate between forcing temperature and phenology, and we examine possible explanations for this countergradient pattern, including local adaptation. 相似文献
8.
《Bioorganic & medicinal chemistry letters》2014,24(21):5127-5133
The correct positioning and orientation of an hydrogen bond acceptor (HBA) in the tail portion of the biaryl series of CRTh2 antagonists is a requirement for long receptor residence time. The HBA in combination with a small steric substituent in the core section (Rcore ≠ H) gives access to compounds with dissociation half-lives of ⩾24 h. 相似文献
9.
Bukar A. Abdullahi 《Hydrobiologia》1990,196(2):101-109
Megacyclops viridis (Jurine), Macrocyclops albidus (Jurine), and Acanthocyclops vernalis (Fischer) were raised in the laboratory at six temperatures (5, 8, 10, 12, 15 and 20°) and fed a mixture of ciliates (Paramecium caudatum and Colpidium campylum). Data were taken on clutch size, embryonic development time, interclutch period, time to first clutch, sex ratio and longevity.Clutch size, time to first clutch, embryonic development time, interclutch period and longevity are inversely related to temperature. The ratio of males to females in a cohort is independent of temperature. 相似文献
10.
Sylvia Hofmann Sabine Kraus Tsering Dorge Michael Nothnagel Georg Miehe 《Journal of Biogeography》2014,41(11):2162-2172