scholarly article | Q13442814 |
P356 | DOI | 10.1111/PCE.13082 |
P698 | PubMed publication ID | 29044545 |
P50 | author | William Finch-Savage | Q88148337 |
Steven Footitt | Q43058914 | ||
P2093 | author name string | Z Huang | |
A Tang | |||
P2860 | cites work | DOG1 expression is predicted by the seed-maturation environment and contributes to geographical variation in germination in Arabidopsis thaliana | Q84526169 |
Induction of dormancy in Arabidopsis summer annuals requires parallel regulation of DOG1 and hormone metabolism by low temperature and CBF transcription factors | Q84626693 | ||
The Ecology of Seeds | Q107968542 | ||
Fitness and its role in evolutionary genetics | Q22122004 | ||
Ecological responses to recent climate change | Q29547682 | ||
Seed dormancy and the control of germination | Q29840869 | ||
Constraint to adaptive evolution in response to global warming | Q30661825 | ||
The effect of temperature on reproduction in the summer and winter annual Arabidopsis thaliana ecotypes Bur and Cvi | Q30765768 | ||
Maternal temperature history activates Flowering Locus T in fruits to control progeny dormancy according to time of year. | Q30878975 | ||
Ecology. Phenology feedbacks on climate change | Q33445883 | ||
Demographic and genetic patterns of variation among populations of Arabidopsis thaliana from contrasting native environments | Q33507265 | ||
Plant phenotypic plasticity in a changing climate. | Q33726427 | ||
Dormancy cycling in Arabidopsis seeds is controlled by seasonally distinct hormone-signaling pathways | Q35647517 | ||
Early life stages contribute strongly to local adaptation in Arabidopsis thaliana | Q37086564 | ||
Completing the cycle: maternal effects as the missing link in plant life histories | Q37153042 | ||
Major flowering time gene, flowering locus C, regulates seed germination in Arabidopsis thaliana | Q37261698 | ||
Environmental change and the option value of genetic diversity | Q37337667 | ||
Global warming and sexual plant reproduction | Q37343262 | ||
The ecophysiology of seed persistence: a mechanistic view of the journey to germination or demise | Q38195116 | ||
Multiple paths to similar germination behavior in Arabidopsis thaliana | Q38954974 | ||
Effects of Parental Temperature and Nitrate on Seed Performance are Reflected by Partly Overlapping Genetic and Metabolic Pathways | Q39060966 | ||
Adjusting phenotypes via within- and across-generational plasticity | Q39163585 | ||
Seed dormancy cycling and the regulation of dormancy mechanisms to time germination in variable field environments | Q39229277 | ||
Clinal variation in seed traits influencing life cycle timing in Arabidopsis thaliana. | Q39529396 | ||
Temperature, light and nitrate sensing coordinate Arabidopsis seed dormancy cycling, resulting in winter and summer annual phenotypes. | Q41826150 | ||
Environment sensing in spring-dispersed seeds of a winter annual Arabidopsis influences the regulation of dormancy to align germination potential with seasonal changes | Q42050196 | ||
Interaction between parental environment and genotype affects plant and seed performance in Arabidopsis. | Q43041536 | ||
The Arabidopsis abscisic acid catabolic gene CYP707A2 plays a key role in nitrate control of seed dormancy | Q46202331 | ||
Nitrate, a signal relieving seed dormancy in Arabidopsis | Q46756328 | ||
Applying developmental threshold models to evolutionary ecology | Q46795377 | ||
Pleiotropy in the wild: the dormancy gene DOG1 exerts cascading control on life cycles. | Q50756042 | ||
Ecological genetics of seed germination regulation in Bromus tectorum L. : II. Reaction norms in response to a water stress gradient imposed during seed maturation. | Q51205081 | ||
Altitudinal and climatic associations of seed dormancy and flowering traits evidence adaptation of annual life cycle timing in Arabidopsis thaliana. | Q51303826 | ||
Pre-zygotic parental environment modulates seed longevity | Q56925988 | ||
Maternal and zygotic temperature signalling in the control of seed dormancy and germination | Q57947835 | ||
Natural variation of nitrate uptake and nitrogen use efficiency in Arabidopsis thaliana cultivated with limiting and ample nitrogen supply | Q59594571 | ||
Germination, Postgermination Adaptation, and Species Ecological Ranges | Q60141847 | ||
Climate change and plant regeneration from seed | Q60240771 | ||
Variable desiccation tolerance in Acer pseudoplatanus seeds in relation to developmental conditions: a case of phenotypic recalcitrance? | Q60297650 | ||
Seed germination response to cold stratification period and thermal regime in Phacelia secunda (Hydrophyllaceae) – Altitudinal variation in the mediterranean Andes of central Chile | Q60467774 | ||
Phenotypic plasticity in seed germination relates differentially to overwintering and flowering temperatures | Q63487075 | ||
Parental effects in Plantago lanceolata L. III. Measuring parental temperature effects in the field | Q73002421 | ||
P433 | issue | 1 | |
P921 | main subject | climate change | Q7942 |
seed dormancy | Q2397491 | ||
P304 | page(s) | 187-197 | |
P577 | publication date | 2017-10-17 | |
P1433 | published in | Plant, Cell and Environment | Q15766307 |
P1476 | title | Predicted global warming scenarios impact on the mother plant to alter seed dormancy and germination behaviour in Arabidopsis | |
P478 | volume | 41 |
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Q93102598 | Aquaporins influence seed dormancy and germination in response to stress |
Q98156937 | Changes in phenological events in response to a global warming scenario reveal greater adaptability of winter annual compared to summer annual Arabidopsis ecotypes |
Q96773003 | Germination responses to winter warm spells and warming vary widely among woody plants in a temperate forest |
Q93133884 | How plants respond to climate change: A new Virtual Special Issue of Plant, Cell & Environment |
Q53409634 | Interaction of maternal environment and allelic differences in seed vigour genes determines seed performance in Brassica oleracea. |
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