Dali Guo spends much of her time researching Ecology, Botany, Ecosystem, Terrestrial ecosystem and Woody plant. Her work on Biodiversity, Arid and Vegetation as part of general Ecology study is frequently linked to Dendrochronology and Tree, therefore connecting diverse disciplines of science. Her studies in Botany integrate themes in fields like Plant nutrition and Biogeochemistry.
Her biological study spans a wide range of topics, including Geometric mean, Nutrient and Agronomy. Her Terrestrial ecosystem research is multidisciplinary, relying on both Terrestrial plant and Order. Her work deals with themes such as Rainforest, Fraxinus, Ephemeral key and Rhizotron, which intersect with Woody plant.
Her primary scientific interests are in Ecology, Botany, Ecosystem, Agronomy and Temperate climate. The study incorporates disciplines such as Biomass and Nutrient in addition to Botany. She combines subjects such as Soil water and Colonization with her study of Nutrient.
Her research in Ecosystem intersects with topics in Biodiversity, Grassland and Biosphere. Her Agronomy study integrates concerns from other disciplines, such as Subtropics, Soil organic matter, Plant physiology, Nitrogen cycle and Plant litter. Her Fraxinus research incorporates elements of Root system and Growing season.
Dali Guo mostly deals with Ecology, Ecosystem, Agronomy, Botany and Root. Her study in the field of Habitat and Plant community is also linked to topics like Resource Acquisition Is Initialization, Diversity and Phylogenetics. Her Ecosystem research includes elements of Photosynthesis, Biodiversity, Biosphere and Palisade.
Her Agronomy research incorporates themes from Terrestrial ecosystem and Plant litter. She studied Terrestrial ecosystem and Trophic level that intersect with Nutrient. The Root tip, Water-use efficiency and Stele research she does as part of her general Botany study is frequently linked to other disciplines of science, such as Pometia tomentosa, therefore creating a link between diverse domains of science.
Dali Guo mainly focuses on Ecology, Ecosystem, Phylogenetics, Biosphere and Resource Acquisition Is Initialization. Her research on Ecology frequently links to adjacent areas such as Agronomy. The concepts of her Ecosystem study are interwoven with issues in Productivity, Biodiversity, Species richness and Tropical and subtropical moist broadleaf forests.
The Biodiversity study combines topics in areas such as Shrub, Afforestation, Habitat, Biome and Plant community. Her study in Biosphere is interdisciplinary in nature, drawing from both Tundra, Temperate climate, Atmospheric sciences, Ecosystem ecology and Global change. The Global change study which covers Carbon cycle that intersects with Nitrification, Nitrogen cycle, Plant litter and Forest floor.
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Leaf nitrogen and phosphorus stoichiometry across 753 terrestrial plant species in China
New Phytologist (2005)
Redefining fine roots improves understanding of below-ground contributions to terrestrial biosphere processes
M. Luke McCormack;Ian A. Dickie;David M. Eissenstat;Timothy J. Fahey.
New Phytologist (2015)
Anatomical traits associated with absorption and mycorrhizal colonization are linked to root branch order in twenty-three Chinese temperate tree species
New Phytologist (2008)
Assessing the patterns and controls of fine root dynamics: an empirical test and methodological review
Journal of Ecology (2006)
Fine root branch orders respond differentially to carbon source-sink manipulations in a longleaf pine forest.
Evolutionary history resolves global organization of root functional traits
Zeqing Ma;Dali Guo;Xingliang Xu;Mingzhen Lu.
Stoichiometry and large-scale patterns of leaf carbon and nitrogen in the grassland biomes of China
Impacts of species richness on productivity in a large-scale subtropical forest experiment.
Yuanyuan Huang;Yuxin Chen;Nadia Castro-Izaguirre;Martin Baruffol;Martin Baruffol.
Leading dimensions in absorptive root trait variation across 96 subtropical forest species
Deliang Kong;Chengen Ma;Qian Zhang;L e Li.
New Phytologist (2014)
Rapid warming accelerates tree growth decline in semi-arid forests of Inner Asia
Hongyan Liu;A. Park Williams;Craig D. Allen;Dali Guo.
Global Change Biology (2013)
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