| scholarly article | Q13442814 |
| P356 | DOI | 10.1046/J.1365-2745.1998.00312.X |
| P50 | author | Byron Lamont | Q5004408 |
| Christian Wissel | Q5110279 | ||
| Neal Enright | Q57525938 | ||
| P2093 | author name string | Ralf Marsula | |
| P2860 | cites work | Seed bank dynamics of a serotinus, fire-sensitive Banksia species | Q29395530 |
| Survival, Growth and Water Relations of Banksia Seedlings on a Sand Mine Rehabilitation Site and Adjacent Scrub-Heath Sites | Q29395856 | ||
| Seed Bank Dynamics of Three Co-Occurring Banksias in South Coastal Western Australia: the Role of Plant Age, Cockatoos, Senescence and Interfire Establishment. | Q29542124 | ||
| Seed Bank and Population Dynamics of Banksia cuneata: The Role of Time, Fire, and Moisture | Q30050200 | ||
| Delayed seed dispersal in Pinus torreyana (Torrey pine). | Q46628558 | ||
| Disproportionate allocation of mineral nutrients and carbon between vegetative and reproductive structures in Banksia hookeriana | Q46681438 | ||
| SEROTINY, GEOGRAPHY, AND FIRE IN THE PINE BARRENS OF NEW JERSEY. | Q47959819 | ||
| A MODEL OF FIRE SELECTION FOR SEROTINY IN LODGEPOLE PINE. | Q47961847 | ||
| Canopy seed storage in woody plants | Q56805341 | ||
| Fire and Senescent Fynbos in the Swartberg, Southern Cape | Q57264722 | ||
| The ecological significance of canopy seed storage in fire-prone environments: a model for resprouting shrubs | Q58834860 | ||
| Canopy Seed Bank Dynamics and Optimum Fire Regime for the Highly Serotinous Shrub, Banksia Hookeriana | Q58834862 | ||
| Fire temperatures and follicle-opening requirements in 10 Banksia species | Q58834883 | ||
| Seed Banks, Fire Season, Safe Sites and Seedling Recruitment in Five Co-Occurring Banksia Species | Q58834884 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | shrub | Q42295 |
| canopy | Q1134228 | ||
| ecological modeling | Q114110264 | ||
| ecological significance | Q117212894 | ||
| P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
| P304 | page(s) | 946-959 | |
| P577 | publication date | 1998-12-01 | |
| P1433 | published in | Journal of Ecology | Q766513 |
| P1476 | title | The ecological significance of canopy seed storage in fire-prone environments: a model for non-sprouting shrubs | |
| P478 | volume | 86 |
| Q58834840 | A spatial model of coexistence among threeBanksiaspecies along a topographic gradient in fire-prone shrublands |
| Q58834848 | Adaptive advantages of aerial seed banks |
| Q58834826 | Anomalies in grasstree fire history reconstructions for south-western Australian vegetation |
| Q60325040 | Are seed set and speciation rates always low among species that resprout after fire, and why? |
| Q57062674 | Assessing the impacts of climate change and land transformation onBanksiain the South West Australian Floristic Region |
| Q29544096 | Banksia born to burn |
| Q33854230 | Conflicting selection from fire and seed predation drives fine-scaled phenotypic variation in a widespread North American conifer |
| Q58834844 | Conservation requirements of an exploited wildflower: modelling the effects of plant age, growing conditions and harvesting intensity |
| Q46746964 | Convergent and correlated evolution of major life-history traits in the angiosperm genus Leucadendron (Proteaceae). |
| Q46985992 | Effects of a fire response trait on diversification in replicated radiations |
| Q30052330 | Effects of inter-fire intervals on the reproductive output of resprouters and obligate seeders in the Proteaceae |
| Q96822522 | Enhanced seed defenses potentially relax selection by seed predators against serotiny in lodgepole pine |
| Q58834814 | Error in the inference of fire history from grasstrees |
| Q38258359 | Evolutionary ecology of resprouting and seeding in fire-prone ecosystems |
| Q57270839 | Exploring fire adaptation in a land with little fire: serotiny in Leptospermum scoparium (Myrtaceae) |
| Q58650713 | Fire interval effects on persistence of resprouter species in Mediterranean-type shrublands |
| Q36166422 | Fire management strategies to maintain species population processes in a fragmented landscape of fire-interval extremes |
| Q58654083 | Fire persistence traits of plants along a productivity and disturbance gradient in mediterranean shrublands of south-east Australia |
| Q35369670 | Fire-mediated disruptive selection can explain the reseeder-resprouter dichotomy in Mediterranean-type vegetation |
| Q58834775 | Fitness and evolution of resprouters in relation to fire |
| Q33910033 | From the ground up: biotic and abiotic features that set the course from genes to ecosystems. |
| Q60325055 | Grasstrees reveal contrasting fire regimes in eucalypt forest before and after European settlement of southwestern Australia |
| Q46723232 | Landscape-scale eco-evolutionary dynamics: selection by seed predators and fire determine a major reproductive strategy. |
| Q28306142 | Late Quaternary climate change and spatial genetic structure in the shrub Banksia hookeriana |
| Q34500785 | Low rate of between-population seed dispersal restricts genetic connectivity and metapopulation dynamics in a clonal shrub |
| Q57123686 | Low-dimensional trade-offs fail to explain richness and structure in species-rich plant communities |
| Q58644813 | Non-fire induced seed release ina weakly serotinous pine: climatic factors, maintenance costs or both? |
| Q39451033 | Optimal life-history schedule in a metapopulation with juvenile dispersal |
| Q57064999 | Optimal resource allocation in a serotinous non-resprouting plant species under different fire regimes |
| Q58654110 | PLANT FUNCTIONAL TRAITS IN RELATION TO FIRE IN CROWN-FIRE ECOSYSTEMS |
| Q58834818 | Record error and range contraction, real and imagined, in the restricted shrubBanksia hookerianain south-western Australia |
| Q58650708 | Resistance and resilience to changing climate and fire regime depend on plant functional traits |
| Q44067292 | Seed release in serotinous lodgepole pine forests after mountain pine beetle outbreak. |
| Q58650702 | Sequential Disturbance Effects of Hailstorm and Fire on Vegetation in a Mediterranean-Type Ecosystem |
| Q58834849 | Serotinous species show correlation between retention time for leaves and cones |
| Q27317358 | Species-specific traits plus stabilizing processes best explain coexistence in biodiverse fire-prone plant communities |
| Q58834860 | The ecological significance of canopy seed storage in fire-prone environments: a model for resprouting shrubs |
| Q21128985 | Timing of fire relative to seed development may enable non-serotinous species to recolonize from the aerial seed banks of fire-killed trees |
| Q100713716 | Use of growth characteristics for predicting plant age of three obligate-seeder Proteaceae species |
| Q39147265 | Vegetation responses to season of fire in an aseasonal, fire-prone fynbos shrubland |
| Q26752896 | Why evolution matters for species conservation: perspectives from three case studies of plant metapopulations |
| Q46620070 | Why wait? Three mechanisms selecting for environment-dependent developmental delays. |
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