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All Outputs (3)

Are modern pollen assemblages from soils and mosses the same? A comparison of natural pollen traps from subtropical China (2021)
Journal Article
Fang, Y., Bunting, M. J., Ma, C., & Yang, X. (2022). Are modern pollen assemblages from soils and mosses the same? A comparison of natural pollen traps from subtropical China. CATENA, 209(1), Article 105790. https://doi.org/10.1016/j.catena.2021.105790

This study investigated the pollen spectra from 46 pairs of soil and moss samples (pairs collected within a 1 m2 squared area). The samples were collected from six common subtropical vegetation communities in the Meiling Mountains, southeast China, w... Read More about Are modern pollen assemblages from soils and mosses the same? A comparison of natural pollen traps from subtropical China.

Brownfield sites promote biodiversity at a landscape scale (2021)
Journal Article
Macgregor, C. J., Bunting, M. J., Deutz, P., Bourn, N. A., Roy, D. B., & Mayes, W. M. (2022). Brownfield sites promote biodiversity at a landscape scale. The Science of the total environment, 804, Article 150162. https://doi.org/10.1016/j.scitotenv.2021.150162

Repurposing of brownfield sites is often promoted, because it is perceived that protecting the “green belt” limits damage to biodiversity; yet brownfield sites provide scarce habitats with limited disturbance, so conversely are also perceived to be e... Read More about Brownfield sites promote biodiversity at a landscape scale.

Linking modern pollen accumulation rates to biomass: Quantitative vegetation reconstruction in the western Klamath Mountains, NW California, USA (2021)
Journal Article
Knight, C., Baskaran, M., Bunting, M. J., Champagne, M., Potts, M., Wahl, D., …Battles, J. (2021). Linking modern pollen accumulation rates to biomass: Quantitative vegetation reconstruction in the western Klamath Mountains, NW California, USA. Holocene, 31(5), 814-829. https://doi.org/10.1177/0959683620988038

Quantitative reconstructions of vegetation abundance from sediment-derived pollen systems provide unique insights into past ecological conditions. Recently, the use of pollen accumulation rates (PAR, grains cm−2 year−1) has shown promise as a bioprox... Read More about Linking modern pollen accumulation rates to biomass: Quantitative vegetation reconstruction in the western Klamath Mountains, NW California, USA.