| human | Q5 |
| P496 | ORCID iD | 0000-0002-7903-9711 |
| P166 | award received | Ecological Society of America Early Career Fellows | Q105950353 |
| P69 | educated at | Princeton University | Q21578 |
| Stanford University | Q41506 | ||
| P108 | employer | Los Alamos National Laboratory | Q379848 |
| P735 | given name | Anna | Q666578 |
| Anna | Q666578 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | female | Q6581072 |
| Q57263637 | A scalable model for methane consumption in arctic mineral soils |
| Q91573830 | A theoretical and empirical assessment of stomatal optimization modeling |
| Q36068564 | Allometric equations for integrating remote sensing imagery into forest monitoring programmes. |
| Q58389715 | Causes and Implications of Extreme Atmospheric Moisture Demand during the Record-Breaking 2011 Wildfire Season in the Southwestern United States* |
| Q115044911 | Climate and hydraulic traits interact to set thresholds for liana viability |
| Q91880898 | Climate and plant trait strategies determine tree carbon allocation to leaves and mediate future forest productivity |
| Q112800653 | Climate change impacts plant carbon balance, increasing mean future carbon use efficiency but decreasing total forest extent at dry range edges |
| Q96590211 | Climate-driven risks to the climate mitigation potential of forests |
| Q95841038 | Competition and Drought Alter Optimal Stomatal Strategy in Tree Seedlings |
| Q58389712 | Correlations between components of the water balance and burned area reveal new insights for predicting forest fire area in the southwest United States |
| Q114079022 | Coupled whole‐tree optimality and xylem hydraulics explain dynamic biomass partitioning |
| Q108523378 | Detecting Forest Response to Droughts with Global Observations of Vegetation Water Content |
| Q46278696 | Differential declines in Alaskan boreal forest vitality related to climate and competition |
| Q109552974 | Divergent forest sensitivity to repeated extreme droughts |
| Q92106673 | Forecasting semi-arid biome shifts in the Anthropocene |
| Q114081814 | Future climate risks from stress, insects and fire across US forests |
| Q57165517 | Hydraulic diversity of forests regulates ecosystem resilience during drought |
| Q115032041 | Integrating plant physiology and community ecology across scales through trait‐based models to predict drought mortality |
| Q98396664 | Integrating the evidence for a terrestrial carbon sink caused by increasing atmospheric CO2 |
| Q92983338 | Leveraging plant hydraulics to yield predictive and dynamic plant leaf allocation in vegetation models with climate change |
| Q123360800 | Observed forest trait velocities have not kept pace with hydraulic stress from climate change |
| Q91329407 | Pervasive decreases in living vegetation carbon turnover time across forest climate zones |
| Q92998720 | Plant functional traits and climate influence drought intensification and land-atmosphere feedbacks |
| Q115170200 | Quantifying the Global Power Needed for Sap Ascent in Plants |
| Q113612225 | Reimagine fire science for the anthropocene |
| Q62552702 | Sensitivity of woody carbon stocks to bark investment strategy in Neotropical savannas and forests |
| Q91451034 | The impact of rising CO2 and acclimation on the response of US forests to global warming |
| Q64926911 | The stomatal response to rising CO2 concentration and drought is predicted by a hydraulic trait-based optimization model. |
| Q90766021 | Trait velocities reveal that mortality has driven widespread coordinated shifts in forest hydraulic trait composition |
| Q101044180 | Understanding and predicting forest mortality in the western United States using long-term forest inventory data and modeled hydraulic damage |
| Q46305142 | Vegetation demographics in Earth System Models: A review of progress and priorities |
| Q92022393 | Widespread drought-induced tree mortality at dry range edges indicates that climate stress exceeds species' compensating mechanisms |
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