scholarly article | Q13442814 |
P50 | author | Susan E. Hartley | Q57251798 |
Adam Frew | Q61121457 | ||
Scott N Johnson | Q85549220 | ||
P2093 | author name string | Andrew N Gherlenda | |
James M W Ryalls | |||
P2860 | cites work | Stimulation of Symbiotic N2 Fixation in Trifolium repens L. under Elevated Atmospheric pCO2 in a Grassland Ecosystem | Q74776745 |
Aphid thermal tolerance is governed by a point mutation in bacterial symbionts | Q21563601 | ||
Plant-Aphid Interactions Under Elevated CO2: Some Cues from Aphid Feeding Behavior | Q26752477 | ||
Rhizobium-legume symbiosis and nitrogen fixation under severe conditions and in an arid climate | Q30399748 | ||
Nodule performance within a changing environmental context. | Q30833835 | ||
The Importance of Testing Multiple Environmental Factors in Legume-Insect Research: Replication, Reviewers, and Rebuttal | Q31090966 | ||
Horizontal transfer of bacterial symbionts: heritability and fitness effects in a novel aphid host | Q33228714 | ||
Elevated CO2 and aboveground-belowground herbivory by the clover root weevil | Q33492449 | ||
SILICON. | Q33976559 | ||
Interactive effects of plant-available soil silicon and herbivory on competition between two grass species. | Q34003184 | ||
Helping plants to deal with insects: the role of beneficial soil-borne microbes. | Q34120451 | ||
Effects of elevated temperature and CO2 on aboveground-belowground systems: a case study with plants, their mutualistic bacteria and root/shoot herbivores | Q35052351 | ||
Plant dependence on rhizobia for nitrogen influences induced plant defenses and herbivore performance | Q37535663 | ||
Will elevated carbon dioxide concentration amplify the benefits of nitrogen fixation in legumes? | Q37597767 | ||
A meta-analytical review of the effects of elevated CO2 on plant-arthropod interactions highlights the importance of interacting environmental and biological variables | Q37989561 | ||
Nitrogen dynamics in grain crop and legume pasture systems under elevated atmospheric carbon dioxide concentration: A meta-analysis. | Q39561092 | ||
Evidence for Active Uptake and Deposition of Si-based Defenses in Tall Fescue | Q41037610 | ||
Dependence of Sitona lepidus (Coleoptera: Curculionidae) larvae on abundance of white clover Rhizobium nodules. | Q44809768 | ||
Is plant ecology more siliceous than we realise? | Q47342767 | ||
CO2 elicits long-term decline in nitrogen fixation | Q49169281 | ||
Variability in life history traits of the aphid, Acyrthosiphon pisum (Harris), from sexual and asexual populations. | Q51336440 | ||
Rapid and accurate analyses of silicon and phosphorus in plants using a portable X-ray fluorescence spectrometer. | Q53100626 | ||
Phosphorus availability and elevated CO2 affect biological nitrogen fixation and nutrient fluxes in a clover-dominated sward | Q57138679 | ||
P921 | main subject | climate change | Q125928 |
P304 | page(s) | 202 | |
P577 | publication date | 2018-02-20 | |
P1433 | published in | Frontiers in Plant Science | Q27723840 |
P1476 | title | Benefits from Below: Silicon Supplementation Maintains Legume Productivity under Predicted Climate Change Scenarios. | |
P478 | volume | 9 |
Q96135187 | An integrated research framework combining genomics, systems biology, physiology, modelling and breeding for legume improvement in response to elevated CO2 under climate change scenario | cites work | P2860 |
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