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Vernalization requirements and seed dormancy of jointed goatgrass (Aegilops cylindrica)Fandrich, Lynn 12 October 2005 (has links)
Jointed goatgrass (Aegilops cylindrica Host) infestations in winter wheat
(Triticum aestivum L.) production regions of the central and western USA result in severe
economic losses in the wheat market. Field and greenhouse studies were conducted to
determine the vernalization requirements of winter wheat, spring wheat, jointed
goatgrass, and wheat by jointed goatgrass reciprocal hybrid plants. In field studies,
jointed goatgrass plants required more vernalization to produce spikelets and germinable
seed than 'Madsen' winter wheat plants. In greenhouse studies, plants of jointed
goatgrass populations collected from Oregon and Washington wheat fields required fewer
vernalization days to reach the joint stage than Madsen plants. Detailed observations in
the greenhouse revealed a longer period between jointing and anthesis for most jointed
goatgrass populations that was overlooked in field studies. Vernalization for 6-wk
represents the minimum treatment for synchronous reproductive development among
jointed goatgrass populations, Madsen winter wheat, and Madsen by jointed goatgrass
hybrids, yet the risk of gene transfer might be greater after 7-wk vernalization. In the
jointed goatgrass populations tested, there was not selection for a vernalization
insensitive growth habit. Because jointed goatgrass spikelets often contain two seed,
germination was recorded for primary and secondary positioned seed. Germination of
freshly harvested jointed goatgrass seed was promoted by 25/15 C day/night
temperatures. However, light and 30/20 C incubation was necessary for maximum
germination of non-dormant, primary positioned seed. Both primary and secondary
positioned seed within jointed goatgrass spikelets were non-dormant after 16-wk after-ripening
at 22 ± 2 C. Under optimum growing conditions, no planting depth selectively
allowed wheat germination and emergence while preventing jointed goatgrass
germination and emergence. Glume removal did not alleviate dormancy completely in
jointed goatgrass seed. Research confirmed jointed goatgrass population polymorphism
for vernalization requirements and seed dormancy. Jointed goatgrass reproductive
variability might be part of a general purpose genotype strategy to germinate and
colonize a wide range of environments. Wheat by jointed goatgrass hybrid plants should
be removed from winter and spring wheat fields. Despite a short dormancy period, three
or more years of rotation outside of winter annual crops may be necessary to reduce
populations of jointed goatgrass. / Graduation date: 2006
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Morphological variability and seed dormancy of Amelanchier (Rosaceae) grown in Oaxaca, MexicoCruz-Cruz, Efrain 21 April 2005 (has links)
Graduation date: 2005
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Seed germination and dormancy in south-western Australian fire ephemerals and burial as a factor influencing seed responsiveness to smokeBaker, Katherine S January 2006 (has links)
[Truncated abstract] Fire ephemerals are pioneer species that germinate in large numbers after fire and generally live for between six months and four years. Seeds produced during the short life span of these plants persist in the soil seedbank until a subsequent fire. This study examined the dormancy characteristics and germination requirements of ten Australian fire ephemeral species from five families. Seeds of four species germinated at one or more incubation temperatures in the laboratory, indicating that a proportion of their seedlots were non-dormant at the time of testing. Austrostipa compressa and Austrostipa macalpinei (Poaceae) produced >80% germination at 10?C and Alyogyne hakeifolia and Alyogyne huegelii (Malvaceae) produced 30-40% and 35-50% germination respectively at 10 to 25°C. In each of the Alyogyne species approximately 50% of seeds were impermeable to water, but scarification did not enable germination of all viable seeds suggesting that seeds which did not germinate, may have possessed physiological dormancy as well as physical dormancy. Remaining species had water permeable seeds. ... Germination of both Alyogyne species declined after six months of winter burial but was enhanced by heat treatments after a further six months of summer burial. Actinotus leucocephalus and Tersonia cyathiflora seeds exhibited annual dormancy cycling over two years of burial. Dormancy was alleviated over summer, allowing seeds of both species to germinate in smoke water when seeds were exhumed in autumn, and reimposed over winter, suppressing germination in spring. In Actinotus leucocephalus these dormancy changes were induced in the laboratory by warm (≥15°C) and cold (5°C) temperatures, alleviating and re-imposing dormancy, respectively. Wetting and drying seeds stored at 37°C further accelerated the rate of dormancy release. This dormancy cycling would increase the likelihood of seeds germinating when moisture availability in south-western Australia is greatest for seedling survival. It also explains the variation in germination response to smoke water observed in many species. Thus under natural conditions dormancy levels of fire ephemerals were altered during soil storage which enabled them to respond to fire-related cues such as heat and smoke water, and germinate in autumn. This information will assist in the use of these species in land rehabilitation and ornamental horticulture, and in the conservation of rare or endangered fire ephemerals.
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Seed biology and rehabilitation in the arid zone : a study in the Shark Bay world heritage area, Western AustraliaCommander, Lucy January 2009 (has links)
Research into seed biology and restoration ecology of areas disturbed by mining is crucial to their revegetation. Shark Bay Salt, a solar salt facility in the Shark Bay World Heritage Area in Western Australia has several areas of disturbance as a result of 'soil borrowing'. Soil from these areas termed 'borrow pits' was used to create infrastructure such as the roads and embankments surrounding the evaporation ponds. Many of the pits contain little to no vegetation after >10 years since disturbance ceased, hence research into their restoration is now essential. A vegetation survey at the site established the key species in the undisturbed vegetation, and investigated the vegetation in borrow pits subject to natural migration and topsoil replacement. The vegetation communities in the borrow pits were vastly different to those in the undisturbed vegetation, highlighting the need for research into revegetation. An investigation into the use of 'borrowed' topsoil on a small scale showed that seedling recruitment from 'borrowed' topsoil was generally similar in the donor site (natural vegetation) and the borrow pits. Due to the absence of topsoil for further revegetation, it was necessary to understand seed germination and dormancy characteristics to establish seed pre-treatments prior to seed broadcasting and seedling (greenstock) planting. An investigation into seed germination and dormancy characteristics of 18 common species revealed that most species germinated equally well at 26/13oC and 33/18oC, however seven species had improved performance at 26/13oC. Untreated seeds of seven species exhibited high germination. Seeds of two species had low imbibition, which increased with hot-water treatment, and hence require scarification for germination. Germination of seeds of three species substantially increased with gibberellic acid (GA3), smoke water (SW) and karrikinolide (KAR1, a butenolide isolated from smoke). Seeds of the remaining six species had low germination regardless of treatment. As a result, species were classified as likely to be non-dormant (44%), physiologically dormant (44%) or physically dormant (11%). Physiological dormancy of three species was at least partly alleviated by dry afterripening, whereby moisture content of seeds was adjusted to 13% or 50% equilibrium relative humidity and seeds were stored at 30oC or 45oC for several months. All iv after-ripening conditions increased germination percentage and rate of two species with one only germinating when treated with GA3 or KAR1. The germination of the third species was dependent on after-ripening temperature and seed moisture content.
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Factors affecting establishment and germination of upland prairie species of conservation concern in the Willamette Valley, OregonJones, Katherine D. 19 March 2012 (has links)
Identifying mechanisms that determine who lives and dies is the first step in developing successful restoration techniques for rare species and endangered habitats. We studied interactions that affect establishment of native plant forbs of conservation concern at the seedling stage to support the theoretical basis for restoration activities in Pacific Northwest prairies. Specifically, we tested the hypothesis that seedling establishment is controlled by 1) competition with or 2) facilitation by existing vegetation and that the interaction is mediated in part by environmental stress.
We direct-seeded or planted vegetative plugs of Lupinus oreganus, Castilleja levisecta, Erigeron decumbens, Iris tenax and Sidalcea malviflora ssp. virgata into 20 plots with a range of community compositions in high-stress upland prairies at each of three sites. We counted seedlings and estimated cover of plant functional groups as well as litter, bare soil and disturbance then used linear regression to test for effects of these factors on seedling establishment.
We found evidence of indirect facilitation of grass on seedling establishment in the first year: higher accumulations of leaf litter increased seedling numbers at two sites. In the second year, there was evidence of facilitation by live vegetation and
litter on seedlings at one site, but no net effect of either competition or facilitation at the other two sites.
Overall, we found more evidence for positive interactions than we did for competition. In particular, litter appeared to have a positive effect on seedling establishment of L. oreganus and S. malviflora ssp. virgata. This is contrary to the common perception that litter inhibits plant establishment but supports the theory that facilitation is more common in high stress sites; practitioners should consider seeding into leaf litter at some sites.
To support a robust approach to conservation and reintroduction of species with dormant seed, we characterized dormancy types and developed germination protocols for S. malviflora ssp. virgata and I. tenax. S. malviflora ssp. virgata has physical dormancy and may have physiological dormancy. Scarification followed by four weeks of cold moist stratification was effective in initiating germination. I. tenax has morphophysiological dormancy which is overcome by four weeks of warm moist stratification followed by 6-12 weeks of cold stratification. We also conducted a meta-analysis of experiments that tested pre-sowing seed scarification of L. oreganus and conclude that breaking physical dormancy prior to direct seeding does not support higher establishment relative to unscarified seeds in this species. / Graduation date: 2012
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