Table_1_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.pdf by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Image_7_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.PNG by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Image_1_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.PNG by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Image_2_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.PNG by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

When Winners Become Losers: Predicted Nonlinear Responses of Arctic Birds to Increasing Woody Vegetation by Sarah J. Thompson (3350483)

“…We considered the importance of shrub height, density of low and tall shrubs (i.e. shrubs >0.5 m tall), percent of ground cover attributed to shrubs (including dwarf shrubs <0.5 m tall), and percent of herbaceous plant cover in predicting bird abundance. …”

Audio_3_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.WAV by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Image_6_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.PNG by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Audio_1_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.WAV by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Data_Sheet_1_Revisiting the complex time-varying effect of non-pharmaceutical interventions on COVID-19 transmission in the United States.docx by Gonghua Wu (14821738)

“…</p>Results<p>We found that (i) the empirical reduction in reproduction number attributable to integrated NPIs was 52.0% (95%CI: 44.4, 58.5%) by August and September 2020, whereas the reduction continuously decreased due to the relaxation of NPIs in following months; (ii) international travel restrictions, stay-at-home requirements, and restrictions on gathering size were important NPIs with the relative contribution higher than 12.5%; (iii) vaccination alone could not mitigate transmission when the fully vaccination coverage was less than 60%, but it could effectively synergize with NPIs; (iv) even with fully vaccination coverage >60%, combined use of NPIs and vaccination failed to reduce the reproduction number below 1 in many states by February 2022 because of elimination of above NPIs, following with a resurgence of COVID-19 after March 2022.…”

Audio_2_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.WAV by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Alterations in Lipid and Inositol Metabolisms in Two Dopaminergic Disorders by Eva C. Schulte (213836)

“…</p><p>Results</p><p>After stringent quality control, we identified decreased levels of long-chain (polyunsaturated) fatty acids of individuals with PD compared to both RLS (PD vs. …”

Video_1_Underwater Acoustic Ecology Metrics in an Alaska Marine Protected Area Reveal Marine Mammal Communication Masking and Management Alternatives.WMV by Christine M. Gabriele (3297708)

“…RA was approximated from the quietest 5th percentile noise statistics based on a year (2011) of continuous audio data from a hydrophone in GBNP, in the frequency bands of whale and seal sounds of interest: humpback “whup” calls (50–700 Hz, 143 dB re 1 μPa source level, SL); humpback song (224–708 Hz, 175 dB SL), and harbor seal roars (4–500 Hz, 144 dB SL). …”

Effects of intragastric infusion of Olanzapine (t = 130 to t = 290; 3 mg/kg/h) on glucose disappearance (Experiment 3). by Elodie M. Girault (144494)

“…<p>(Vehicle group n = 8, Olanzapine group n = 7) 5a: Endogenous glucose production at basal (mean of 3 time points: t = 90 to t = 100; white bars) and during the hyperinsulinemic state (mean of 5 time points: t = 250 to t = 290; black bars). …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Lipidome Unsaturation Affects the Morphology and Proteome of the Drosophila Eye by Mukesh Kumar (132604)

“…In contrast, the abundance of two stress response proteins, Turandot A and Smg5, is decreased by lipid unsaturation. …”

Table 1_Circulating immune landscape and immune signatures in spontaneous HIV controllers.docx by Adriana Navas (169787)

“…Both groups showed increased naïve and immature B cells and decreased switched memory and plasma cells. EC uniquely exhibited increased IgA⁺ memory B cells —a feature consistent with enhanced mucosal immunity— and decreased IgG⁺ memory B cells and CD307d expression, suggestive of mucosal imprinting and reduced exhaustion. …”