Bibliography
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Filters: Author is Adrian V Rocha and Type is Journal Article [Clear All Filters]
“Solar-Induced Chlorophyll Fluorescence Is Strongly Correlated With Terrestrial Photosynthesis For A Wide Variety Of Biomes: First Global Analysis Based On Oco-2 And Flux Tower Observations”. Global Change Biology 24, no. 93. Global Change Biology (2018): 3990 - 4008. doi:10.1111/gcb.14297.
. “A Test Of Functional Convergence In Carbon Fluxes From Coupled C And N Cycles In Arctic Tundra”. Ecological Modelling 383. Ecological Modelling (2018): 31 - 40. doi:10.1016/j.ecolmodel.2018.05.017.
. “Differential Responses Of Ecotypes To Climate In A Ubiquitous Arctic Sedge: Implications For Future Ecosystem C Cycling”. New Phytologist. New Phytologist (2019). doi:10.1111/nph.15790.
. “Solar-Induced Chlorophyll Fluorescence Exhibits A Universal Relationship With Gross Primary Productivity Across A Wide Variety Of Biomes”. Global Change Biology 25, no. 4. Global Change Biology (2019): e4 - e6. doi:10.1111/gcb.14565.
. “Limited Overall Impacts Of Ectomycorrhizal Inoculation On Recruitment Of Boreal Trees Into Arctic Tundra Following Wildfire Belie Species-Specific Responses”. Plos One 15, no. 7. Plos One (2020): e0235932. doi:10.1371/journal.pone.0235932.
. “Alleviation Of Nutrient Co‐Limitation Induces Regime Shifts In Post‐Fire Community Composition And Productivity In Arctic Tundra”. Global Change Biology. Global Change Biology (2021). doi:10.1111/gcb.15646.
. “Solar Position Confounds The Relationship Between Ecosystem Function And Vegetation Indices Derived From Solar And Photosynthetically Active Radiation Fluxes”. Agricultural And Forest Meteorology 298-299. Agricultural And Forest Meteorology (2021): 108291. doi:10.1016/j.agrformet.2020.108291.
. “Tundra Wildfire Triggers Sustained Lateral Nutrient Loss In Alaskan Arctic”. Global Change Biology. Global Change Biology (2021). doi:https://doi.org/10.1111/gcb.15507.
. “Circum‐Arctic Distribution Of Chemical Anti‐Herbivore Compounds Suggests Biome‐Wide Trade‐Off In Defence Strategies In Arctic Shrubs”. Ecography 2022, no. 11. Ecography (2022). doi:10.1111/ecog.06166.
. “Cross-Biome Synthesis Of Source Versus Sink Limits To Tree Growthuncoupled Carbon Uptake And Storage”. Science 376, no. 6594. Science (2022): 758 - 761. doi:10.1126/science.abm4875.
. “Evaluating Photosynthetic Activity Across Arctic-Boreal Land Cover Types Using Solar-Induced Fluorescenceabstract”. Environmental Research Letters 17, no. 11. Environmental Research Letters (2022): 115009. doi:10.1088/1748-9326/ac9dae.
. “Range Shifts In A Foundation Sedge Potentially Induce Large Arctic Ecosystem Carbon Losses And Gainsabstract”. Environmental Research Letters 17, no. 4. Environmental Research Letters (2022): 045024. doi:10.1088/1748-9326/ac6005.
. “Small Herbivores With Big Impacts: Tundra Voles ( Microtus Oeconomus ) Alter Post‐Fire Ecosystem Dynamics”. Ecology 103, no. 7. Ecology (2022). doi:10.1002/ecy.3689.
. “Insights Into The Tussock Growth Form With Model–Data Fusion”. New Phytologist. New Phytologist (2023). doi:10.1111/nph.18751.
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