Experimental Design Flowchart. by Si Yu Zhao (19544793)

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Ordinal regression task performance. by Thierry Jean (20691795)

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Posterior estimates of niche overlap for opportunist/scavengers. by Nathan D. McTigue (10706460)

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Vehicle fuel consumption and pollutant emissions at different penetration rate of CAVs. by Jianrong Cai (14245136)

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Activity monitoring of wild-type and <i>rho-l</i> mutant strains of <i>Aedes albopictus</i>. by Si Yu Zhao (19544793)

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The mixed traffic flow of CAV and HV in tunnel entrance zone. by Jianrong Cai (14245136)

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Quantification of isotopic niche overlap in fjords. by Nathan D. McTigue (10706460)

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Niche overlap within fjord communities. by Nathan D. McTigue (10706460)

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Results from linear regression analysis for δ¹³C or δ¹⁵N and collection date. by Nathan D. McTigue (10706460)

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Vehicle trajectory under different penetration rates of CAVs. by Jianrong Cai (14245136)

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Distribution of stable carbon and nitrogen values for pPOM and sPOM. by Nathan D. McTigue (10706460)

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Surveys. by Thierry Jean (20691795)

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Parameter values. by Jianrong Cai (14245136)

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Joinpoint analysis of trends in the age-standardized DALYs rates of HNC, NPC, and TC from 1990 to 2021. by Mengjuan Ding (21560393)

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Linear regressions of consumer stable carbon and nitrogen isotope values and collection date. by Nathan D. McTigue (10706460)

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Phagocytosis of SMPs by alveolar macrophages of MH-S cell line evaluated by flow cytometry. by Alejandra Barrera-Rosales (21656278)

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Compound eye blindfolding and its effect on the search for oviposition sites. by Si Yu Zhao (19544793)

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DALYs and ASDR of nasopharynx cancer in 2021, and their average annual percentage changes from 1990 to 2021. by Mengjuan Ding (21560393)

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Cell viability of alveolar macrophages of MH-S cell line stimulated with SMPs for 24 by Alejandra Barrera-Rosales (21656278)

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S1 Data - by Jia Long (288557)

“…The total chlorophyll content of blueberry leaves at 25% light intensity increased by 76.4% compared with CK during the blue fruiting stage; the maximum net photosynthetic rate (Pmax), light compensation point (LCP), light saturation point (LSP), rate of dark respirations (Rd), inter-cellular CO₂ concentration (Ci), stomatal conductance (Gs), transpiration rate (Tr), net photosynthesis rate (Pn), and chlorophyll a/b showed a decreasing trend with decreasing light intensity. The Pn of blueberry leaves was highest under full light conditions at all three stages, and the Pn at 25% light intensity decreased by 68.5% compared with CK during the white fruiting stage Reflecting the fact that blueberries can adapt to low-light environments through increases in chlorophyll and carotenoids, but reduced light intensity significantly inhibited their photosynthesis. …”