Typhoons initiate predictable change in aquatic bacterial communities
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Katherine D. McMahon | Ashley Shade | Timothy K. Kratz | K. McMahon | A. Shade | T. Kratz | Jiunn‐Tzong Wu | Chih-Yu Chiu | Stuart E. Jones | Jiunn Tzong Wu | C. Chiu
[1] H. Gleason. Further Views on the Succession‐Concept , 1927 .
[2] P. White,et al. The Ecology of Natural Disturbance and Patch Dynamics , 1986 .
[3] H. S. Horn,et al. The Ecology of Secondary Succession , 1974 .
[4] T. Kratz,et al. Temporal Patterns in Bacterial Communities in Three Temperate Lakes of Different Trophic Status , 2003, Microbial Ecology.
[5] S. Nee,et al. Quantifying the roles of immigration and chance in shaping prokaryote community structure. , 2006, Environmental microbiology.
[6] Ter Braak,et al. Canoco reference manual and CanoDraw for Windows user''s guide: software for canonical community ord , 2002 .
[7] D. Debroas,et al. Anaerobic Microbial Communities in Lake Pavin, a Unique Meromictic Lake in France , 2005, Applied and Environmental Microbiology.
[8] J. Hobbie,et al. Synchrony and seasonality in bacterioplankton communities of two temperate rivers , 2005 .
[9] K. R. Clarke,et al. Non‐parametric multivariate analyses of changes in community structure , 1993 .
[10] Anke Jentsch,et al. The Search for Generality in Studies of Disturbance and Ecosystem Dynamics , 2001 .
[11] N. Fierer,et al. Influence of Drying–Rewetting Frequency on Soil Bacterial Community Structure , 2002, Microbial Ecology.
[12] M. L. Chow,et al. Molecular characterization of bacterial diversity from British Columbia forest soils subjected to disturbance. , 2002, Canadian journal of microbiology.
[13] M. Turner,et al. Factors Influencing Succession: Lessons from Large, Infrequent Natural Disturbances , 1998, Ecosystems.
[14] K. McMahon,et al. Synchrony in aquatic microbial community dynamics , 2007, The ISME Journal.
[15] C. S. Reynolds,et al. Intermediate disturbance in the ecology of phytoplankton and the maintenance of species diversity: a synthesis , 2004, Hydrobiologia.
[16] P. White,et al. The Ecology of Natural Disturbance and Patch Dynamics , 1986 .
[17] P. Hanson,et al. Wireless Sensor Networks for Ecology , 2005 .
[18] K. McMahon,et al. Microbial community dynamics in a humic lake: differential persistence of common freshwater phylotypes. , 2006, Environmental microbiology.
[19] Marti J. Anderson,et al. Distance‐Based Tests for Homogeneity of Multivariate Dispersions , 2006, Biometrics.
[20] J. Connell,et al. Mechanisms of Succession in Natural Communities and Their Role in Community Stability and Organization , 1977, The American Naturalist.
[21] T. Kratz,et al. Annual Patterns in Bacterioplankton Community Variability in a Humic Lake , 2004, Microbial Ecology.
[22] Shih-Chieh Chang,et al. Characteristics of the Acidic Environment of the Yuanyang Lake (Taiwan) , 2001 .
[23] I. Hewson,et al. Annually reoccurring bacterial communities are predictable from ocean conditions , 2006, Proceedings of the National Academy of Sciences.
[24] W. Sousa. The Role of Disturbance in Natural Communities , 1984 .
[25] Emily S. J. Rauschert,et al. Moving from pattern to process: Coexistence mechanisms under intermediate disturbance regimes , 2004 .
[26] M. L. Chow,et al. Molecular characterization of bacterial diversity from British Columbia forest soils subjected to disturbance. , 2002, Canadian journal of microbiology.