Image_3_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image2_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image4_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table4_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Next-Generation Invaders? Hotspots for Naturalised Sleeper Weeds in Australia under Future Climates by Daisy Englert Duursma (502129)

“…The areal extent of the continental hotspot was projected to decrease by 8.8% under climates for 2035, and by a further 5.2% by 2065. …”

Image_1_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table_2_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Data_Sheet_1_Network analysis of live pig movements in North Macedonia: Pathways for disease spread.pdf by Kathleen C. O'Hara (11769671)

“…Movements to slaughterhouses predominated (85.6%), with movements between farms (5.4%) and movements to market (5.8%) playing a lesser role. …”

Image6_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image_6_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table_4_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table3_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table_1_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table_3_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image3_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image_4_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Image_2_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Table1_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.docx by Zhi-Ping Mei (19427332)

“…Results reveal a projected 13.4% decrease in annual primary production across the GSL system over the next 70 years. …”

Effect of microRNAs in fate determination of memory CD8 T cells. by Gonzalo Almanza (246998)

“…↑and↓ refer to net increase/decrease from the corresponding baseline values. Δ refers to a variation between IL-15-derived and IL-2-derived memory T cells at corresponding time points. …”

The ability of MLR-Tregs to allospecifically suppress MLR proliferation. by Yuming Yu (212650)

“…Note the drastic decrease in the inhibitory effect by MLR-Tregs in the non-specific culture combinations as the modulator cell concentrations decreased (** = p<0.01; n = 5).…”