| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1091554946 |
| P356 | DOI | 10.1038/S41598-017-11294-X |
| P932 | PMC publication ID | 5596004 |
| P698 | PubMed publication ID | 28900140 |
| P50 | author | Neil C. Turner | Q51114674 |
| Jiayin Pang | Q64784527 | ||
| P2093 | author name string | Chun-Hui Zhang | |
| Dang-Hui Xu | |||
| Feng-Min Li | |||
| Juan-Juan Zhang | |||
| Tian-Peng Gao | |||
| Xiang-Wen Fang | |||
| P2860 | cites work | Limits to the height growth of Caragana korshinskii resprouts. | Q47250524 |
| Amplification of ABA biosynthesis and signaling through a positive feedback mechanism in seeds | Q50461453 | ||
| A season- and gap-detection mechanism regulates seed germination of two temperate forest pioneers. | Q51576576 | ||
| Strophiole of seeds of the black locust acts as a water gap | Q56547531 | ||
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| Climate change and plant regeneration from seed | Q60240771 | ||
| The osmotic potential of polyethylene glycol 6000 | Q83247198 | ||
| Community-wide germination strategies in a temperate rainforest of Southern Chile: ecological and evolutionary correlates | Q100710930 | ||
| Phylogeny of Caragana (Fabaceae) based on DNA sequence data from rbcL, trnS-trnG, and ITS | Q28304782 | ||
| Himalayan uplift shaped biomes in Miocene temperate Asia: evidence from leguminous Caragana | Q28596096 | ||
| Factors that shape seed mass evolution | Q28769555 | ||
| Inferring the historical patterns of biological evolution | Q29547170 | ||
| Phylogenetic niche conservatism, phylogenetic signal and the relationship between phylogenetic relatedness and ecological similarity among species | Q29616110 | ||
| Evolution of Asian monsoons and phased uplift of the Himalaya-Tibetan plateau since Late Miocene times | Q29618522 | ||
| Stomatal closure is induced by hydraulic signals and maintained by ABA in drought-stressed grapevine | Q30406138 | ||
| Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers | Q31152481 | ||
| Ectopic expression of a tomato 9-cis-epoxycarotenoid dioxygenase gene causes over-production of abscisic acid | Q33912522 | ||
| Habitat specialization through germination cueing: a comparative study of herbs from forests and open habitats | Q34492017 | ||
| Dynamic distribution and the role of abscisic acid during seed development of a lady's slipper orchid, Cypripedium formosanum | Q35672333 | ||
| Abscisic acid transporters cooperate to control seed germination | Q36059375 | ||
| Plant regeneration from seeds responds to phylogenetic relatedness and local adaptation in Mediterranean Romulea (Iridaceae) species | Q36944905 | ||
| Molecular networks regulating Arabidopsis seed maturation, after-ripening, dormancy and germination | Q37142259 | ||
| Alterations in flowering strategies and sexual allocation of Caragana stenophylla along a climatic aridity gradient | Q37257927 | ||
| Flower numbers, pod production, pollen viability, and pistil function are reduced and flower and pod abortion increased in chickpea (Cicer arietinum L.) under terminal drought. | Q38998899 | ||
| Effective use of high CO₂ efflux at the soil surface in a tropical understory plant | Q39095611 | ||
| Phylogenetic biome conservatism on a global scale | Q40002412 | ||
| Seed dormancy responses to temperature relate to Nothofagus species distribution and determine temporal patterns of germination across altitudes in Patagonia | Q40607667 | ||
| Functional analysis of Arabidopsis NCED6 and NCED9 genes indicates that ABA synthesized in the endosperm is involved in the induction of seed dormancy | Q42164589 | ||
| Strategies for adaptation of Suaeda physophora, Haloxylon ammodendron and Haloxylon persicum to a saline environment during seed-germination stage | Q42587067 | ||
| Storage behavior and changes in concentrations of abscisic acid and gibberellins during dormancy break and germination in seeds of Phellodendron amurense var. wilsonii (Rutaceae). | Q43222720 | ||
| ABA action and interactions in seeds | Q44448355 | ||
| The evolution of seed dormancy: environmental cues, evolutionary hubs, and diversification of the seed plants | Q45795042 | ||
| Seed dormancy and germination in three Crocus ser. Verni species (Iridaceae): implications for evolution of dormancy within the genus. | Q45910375 | ||
| Nitric oxide-induced rapid decrease of abscisic acid concentration is required in breaking seed dormancy in Arabidopsis. | Q45971221 | ||
| The community-level effect of light on germination timing in relation to seed mass: a source of regeneration niche differentiation | Q46857982 | ||
| Reactive oxygen species, abscisic acid and ethylene interact to regulate sunflower seed germination | Q46896098 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | seed germination | Q22294580 |
| P304 | page(s) | 11248 | |
| P577 | publication date | 2017-09-12 | |
| P1433 | published in | Scientific Reports | Q2261792 |
| P1476 | title | Seed germination of Caragana species from different regions is strongly driven by environmental cues and not phylogenetic signals | |
| P478 | volume | 7 |
| Q64060473 | Water permeability/impermeability in seeds of 15 species of (Fabaceae) | cites work | P2860 |
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