Image_5_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_8_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_6_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_2_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_1_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_4_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

DataSheet_1_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.docx by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Table_2_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.docx by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_3_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Image_7_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.pdf by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

DataSheet_2_Invertebrate Decline Leads to Shifts in Plant Species Abundance and Phenology.docx by Josephine Ulrich (9386150)

“…Additionally, we found that the species shifted their flowering phenology as a response to the different invertebrate treatments, e.g. with decreasing invertebrate biomass Lotus corniculatus showed a later peak flowering time. …”

Measuring the Effectiveness of Conservation: A Novel Framework to Quantify the Benefits of Sage-Grouse Conservation Policy and Easements in Wyoming by Holly E. Copeland (369907)

image1_Effects of Multiconstituent Tides on a Subterranean Estuary With Fixed-Head Inland Boundary.pdf by Xiayang Yu (10001081)

“…Based on numerical simulations, this article examines the variation of SGD and salinity distributions in coastal unconfined aquifers with fixed-head inland boundaries at different distances from the shoreline (i.e., 50, 100, 150, and 200 m). The results showed that the fluctuation intensity of freshwater input was enhanced as the inland aquifer extent decreased, e.g., the range of tide-induced fluctuations in freshwater input increased by around 5 times as the inland aquifer extent decreased from 200 to 50 m. …”

Agreement with tolerance in the order of district towns in the results of SD-TOPSIS application in space ‐ combination A vs. D2. by Roman Vavrek (13200141)

Data_Sheet_1_Intact Forest in Selective Logging Landscapes in the Tropics.xlsx by Francis E. Putz (8033111)

“…<p>The selective logging that characterizes most timber extraction operations in the tropics leaves large patches of logging blocks (i.e., areas allocated for harvesting) intact, without evidence of direct impacts. …”

Data_Sheet_1_Intact Forest in Selective Logging Landscapes in the Tropics.xlsx by Francis E. Putz (8033111)

“…<p>The selective logging that characterizes most timber extraction operations in the tropics leaves large patches of logging blocks (i. e., areas allocated for harvesting) intact, with no direct impacts of the harvest. …”

Representative immunostaining of ACE-2, TMPRSS2, Cathepsin B, and Cathepsin L in cryosections of 0.5% PFA-fixed fresh human corneas. by Corantin Maurin (9155070)

Table_1_Myeloid Ezh2 Deficiency Limits Atherosclerosis Development.docx by Annette E. Neele (6939713)

Image_1_Myeloid Ezh2 Deficiency Limits Atherosclerosis Development.eps by Annette E. Neele (6939713)

Clinical examples of the normal controls, early glaucoma, and severe glaucoma. by Natalia Ivanovna Kurysheva (5679656)