2. http://gce-lter.marsci.uga.edu/lter/files/pubs/Buchan_ASM2001b.pdf (a poster containing more information about this project, especially concerning prokaryotes)
3. http://simo.marsci.uga.edu/ (more prokaryotic info, from the Sapelo Island Microbial Observatory)
HARDCOPY
1. Buchan A, LS Collier, EL Neidle & MA Moran. 2000. Key aromatic-ring-cleaving enzyme,
protocatechuate 3,4-dioxygenase, in the ecologically important marine Roseobacter lineage.
Appl. Environ. Microbiol. 66:4662-4672.
2. Buchan A, SY Newell, JIL Moreta & MA Moran. 2002. Analysis of internal transcribed spacer (ITS) regions of rRNA genes in fungal communities in a southeastern U.S. saltmarsh. Microb. Ecol. 43:329-340.
3. Buchan A, SY Newell, M Butler, EJ Biers, JT Hollibaugh & MA Moran. 2003?. Molecular characterization of fungal and bacterial decomposer communities in a southeastern U.S. saltmarsh. In manuscript.
4. Moreta JIL. 2002. Diversity of ascomycete laccase sequences and contributions of bacteria and ascomycetous fungi to lignocellulose degradation in a southeastern U.S. saltmarsh. MS Thesis, University of Georgia, Athens.
5. Newell SY. 2001. Fungal biomass and productivity. Pp. 357-372. In JH Paul (ed). Methods in Microbiology. Volume 30. Marine Microbiology. Academic.
6. Newell SY. 2001. Multiyear patterns of fungal biomass dynamics and productivity within naturally decaying smooth cordgrass shoots. Limnol. Oceanogr. 46:573-583. [Freely available on the Web]
7. Newell SY. 2001. Spore-expulsion rates and extents of blade occupation by ascomycetes of the smooth-cordgrass standing-decay system. Bot. Mar. 44:277-285.
8. Newell SY. 2003?. Fungal content and activities in standing-decaying leaf blades of plants of the Georgia Coastal Ecosystems research area. Aquat. Microb. Ecol., in manuscript.
9. Newell SY & D Porter. 2000. Microbial secondary production from saltmarsh-grass shoots, and its known and potential fates. Pp. 159-185. In MP Weinstein & DA Kreeger (eds). Concepts and Controversies in Tidal Marsh Ecology. Kluwer.