Daijun Liu
@daijunliu.bsky.social
Ecologist at the Uni of Vienna. Research on (1) local biodiversity and composition shifts to experiment manipulation; (2) functional traits (strategies) and forest mortality; and (3) Biological invasions, impacts and future projection.
Many thanks for your great contribution, Nezha
May 29, 2025 at 12:10 PM
Many thanks for your great contribution, Nezha
This paper set several records: Longest time to complete (10 years); underwent the most revisions (over 20 versions before submission), and had the most unusual journey (asked four extensions from another top journal). I appreciate all the authors, reviewers and editor's help and improve it.
May 28, 2025 at 9:15 PM
This paper set several records: Longest time to complete (10 years); underwent the most revisions (over 20 versions before submission), and had the most unusual journey (asked four extensions from another top journal). I appreciate all the authors, reviewers and editor's help and improve it.
3) many vegetation metrics revealed no association between sensitivity variability and site water availability.
May 28, 2025 at 9:15 PM
3) many vegetation metrics revealed no association between sensitivity variability and site water availability.
2) short-term treatments (1–5 yr) generally elicited stronger responses than long-term ones (> 5 yr), particularly under drought. High sensitivity to changes in climate and nitrogen addition was observed at extremely arid sites (AI < 0.2), and water availability strongly mediated the variation.
May 28, 2025 at 9:15 PM
2) short-term treatments (1–5 yr) generally elicited stronger responses than long-term ones (> 5 yr), particularly under drought. High sensitivity to changes in climate and nitrogen addition was observed at extremely arid sites (AI < 0.2), and water availability strongly mediated the variation.
Main result: 1) the magnitude of responses varied depending on the vegetation metrics and treatment conditions. Specifically, aboveground biomass (AGB) was most sensitive to warming, increased precipitation, and nitrogen addition, while density was most responsive to drought treatment.
May 28, 2025 at 9:15 PM
Main result: 1) the magnitude of responses varied depending on the vegetation metrics and treatment conditions. Specifically, aboveground biomass (AGB) was most sensitive to warming, increased precipitation, and nitrogen addition, while density was most responsive to drought treatment.