| scholarly article | Q13442814 |
| P50 | author | Sari Palmroth | Q91235038 |
| Oskar Franklin | Q56460537 | ||
| Torgny Näsholm | Q62923398 | ||
| P2860 | cites work | Fitness and its role in evolutionary genetics | Q22122004 |
| Linking definitions, mechanisms, and modeling of drought-induced tree death | Q30574744 | ||
| Climate and weather influences on spatial temporal patterns of mountain pine beetle populations in Washington and Oregon | Q30581441 | ||
| Balancing the costs of carbon gain and water transport: testing a new theoretical framework for plant functional ecology | Q30692247 | ||
| Mechanisms of plant survival and mortality during drought: why do some plants survive while others succumb to drought? | Q33329244 | ||
| Competition among eucalyptus trees depends on genetic variation and resource supply | Q33380369 | ||
| Proteins for transport of water and mineral nutrients across the membranes of plant cells | Q33600198 | ||
| Any trait or trait-related allele can confer drought tolerance: just design the right drought scenario. | Q34036814 | ||
| Modeling carbon allocation in trees: a search for principles | Q34141260 | ||
| Forests trapped in nitrogen limitation--an ecological market perspective on ectomycorrhizal symbiosis | Q34419861 | ||
| Influence of water deficit on the molecular responses of Pinus contorta × Pinus banksiana mature trees to infection by the mountain pine beetle fungal associate, Grosmannia clavigera. | Q34775894 | ||
| Genetic transformation of eucalyptus | Q36549738 | ||
| Genomic and physiological approaches to advancing forest tree improvement | Q37152331 | ||
| Towards a worldwide wood economics spectrum | Q37401383 | ||
| Yield–trait performance landscapes: from theory to application in breeding maize for drought tolerance | Q37805907 | ||
| Biomass allocation to leaves, stems and roots: meta-analyses of interspecific variation and environmental control | Q37956389 | ||
| Towards optimizing wood development in bioenergy trees. | Q37999808 | ||
| Risk-taking plants: anisohydric behavior as a stress-resistance trait | Q38023139 | ||
| Genetic strategies for dissecting complex traits in biomass willows (Salix spp.). | Q38161863 | ||
| Molecular and physiological responses to abiotic stress in forest trees and their relevance to tree improvement | Q38201637 | ||
| Overexpression of a plasma membrane aquaporin in transgenic tobacco improves plant vigor under favorable growth conditions but not under drought or salt stress | Q38862932 | ||
| Investigating the drought-stress response of hybrid poplar genotypes by metabolite profiling. | Q38893011 | ||
| Transpiration modulates phosphorus acquisition in tropical tree seedlings | Q38936069 | ||
| Trends in wood density and structure are linked to prevention of xylem implosion by negative pressure. | Q39039559 | ||
| Strategies of a Bornean tropical rainforest water use as a function of rainfall regime: isohydric or anisohydric? | Q39150799 | ||
| A new look at water transport regulation in plants | Q39166455 | ||
| Integrating plant hydraulics and gas exchange along the drought-response trait spectrum | Q39213185 | ||
| The importance of wood traits and hydraulic conductance for the performance and life history strategies of 42 rainforest tree species | Q39363761 | ||
| Improving plant stress tolerance and yield production: is the tonoplast aquaporin SlTIP2;2 a key to isohydric to anisohydric conversion? | Q39418770 | ||
| Resource limitation in a competitive context determines complex plant responses to experimental resource additions | Q45803604 | ||
| Genetics of superior growth traits in trees are being mapped but will the faster-growing risk-takers make it in the wild? | Q46796369 | ||
| Least-cost input mixtures of water and nitrogen for photosynthesis | Q48020990 | ||
| Plant diversity and drought: The role of deep roots | Q56755215 | ||
| A generic model of thinning and stand density effects on forest growth, mortality and net increment | Q56755221 | ||
| Forest fine-root production and nitrogen use under elevated CO2: contrasting responses in evergreen and deciduous trees explained by a common principle | Q56755222 | ||
| Optimal nitrogen allocation controls tree responses to elevated CO2 | Q56755224 | ||
| The world-wide ‘fast-slow’ plant economics spectrum: a traits manifesto | Q56965363 | ||
| Let the concept of trait be functional! | Q57051570 | ||
| The Ball-Berry-Leuning and Tardieu-Davies stomatal models: synthesis and extension within a spatially aggregated picture of guard cell function | Q57311823 | ||
| The Brazil Eucalyptus Potential Productivity Project: Influence of water, nutrients and stand uniformity on wood production | Q57440196 | ||
| Genomic selection for growth and wood quality in Eucalyptus: capturing the missing heritability and accelerating breeding for complex traits in forest trees | Q59191713 | ||
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | biotechnology | Q7108 |
| P1104 | number of pages | 18 | |
| P304 | page(s) | 1149-1166 | |
| P577 | publication date | 2014-11-01 | |
| P1433 | published in | Tree Physiology | Q15761975 |
| P1476 | title | How eco-evolutionary principles can guide tree breeding and tree biotechnology for enhanced productivity | |
| P478 | volume | 34 |
| Q44863904 | Genetic variability and heritability of chlorophyll a fluorescence parameters in Scots pine (Pinus sylvestris L.). |
| Q46796369 | Genetics of superior growth traits in trees are being mapped but will the faster-growing risk-takers make it in the wild? |
| Q38666406 | Insect outbreak shifts the direction of selection from fast to slow growth rates in the long-lived conifer Pinus ponderosa |
| Q94563161 | Organizing principles for vegetation dynamics |
| Q38866182 | The importance of intraspecific variation in tree responses to elevated [CO2]: breeding and management of future forests |
| Q38787863 | Tragedies and Crops: Understanding Natural Selection To Improve Cropping Systems |
Search more.