You are here

Publications

Export 329 results:
Author [ Title(Asc)] Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
S
Sadro S, Melack JM, MacIntyre S.  2011.  Spatial and Temporal Variability in the Ecosystem Metabolism of a High-elevation Lake: Integrating Benthic and Pelagic Habitats. Ecosystems. 14:1123-1140.
Williamson CE, Zepp R.G., Lucas R.M., Madronich S., Austin A.T., Ballare C.L, Norval M., Sulzberger B., Bais A.F., McKenzie R.L. et al..  2014.  Solar ultraviolet radiation in a changing climate. Nature Climate Change. 4:434-441.
Leppäranta M, Terzhevik A, Shirasawa K.  2010.  Solar radiation and ice melting in Lake Vendyurskoe, Russian Karelia. Hydrology Research. 41:50.
Harmon T., Smyth R., Chandra S, Conde D., Dhungel R., Escobar J., Hoyos N, Lozoya J., Nin M., Perillo G. et al..  2018.  Socioeconomic and Environmental Proxies for Comparing Freshwater Ecosystem Service Threats across International Sites: A Diagnostic Approach. Water. 10(11)
Cotofana C, Ding L, Shin P, Tilak S, Fountain T, Eakins J, Vernon F.  2006.  An SOA-based Framework for Instrument Management for Large-scale Observing Systems (USArray Case Study). 2006 IEEE International Conference on Web Services (ICWS'06). :815-822.
E. M, M. B, J. B, LN. deSenerpont, HA. D, JP. D, HP. G, JC. N, AI. P, R. P et al..  2018.  Snapshot Surveys for Lake Monitoring, More Than a Shot in the Dark. Frontiers in Ecology and Evolution. 6
Tan Z, Yao H, Zhuang Q.  2018.  A small temperate lake in the 21st century: dynamics of water temperature, ice phenology, dissolved oxygen, and chlorophyll a. Water Resources Research. 54
Tan Z, Yao H, Zhuang Q.  2018.  A small temperate lake in the 21st century: Dynamics of water temperature, ice phenology, dissolved oxygen, and chlorophyll a.
Kimura N.  2007.  Simulation and observation of motions and temperatures in small and medium size lakes. Retrieved from North Temperate Lakes Long Term Ecological Research.
Weyhenmeyer GA, Kosten S, Wallin MB, Tranvik LJ, Jeppesen E, Roland F.  2015.  Significant fraction of CO2 emissions from boreal lakes derived from hydrologic inorganic carbon inputs. Nature Geoscience.
Williamson CE, Saros JE, Schindler DW.  2009.  Sentinels of Change. Science. 323:887-888.
Hu Y-H, Benson B.  2005.  Sensor network data quality assurance..
Tsai J, Kratz TK, Hanson PC, Wu CH, Chang WYB, Arzberger P, Lin Z, Chou H, Chiu CY.  2008.  Seasonal dynamics, typhoons and the regulation of lake metabolism in a subtropical humic lake. Freshwater Biology. 53:1929-1941.
Tsai J, Kratz TK, Hanson PC, Wu CH, Chang WYB, Arzberger P, Lin Z, Chou H, Chiu CY.  2008.  Seasonal dynamics of lake metabolism in a sub-tropical alpine lake. Verh. Internat. Verein. Limnol. 30:381-385.
Brighenti LS, Staehr PA, Gagliardi LM, Brandão LPM, Elias EC, Mello NAST, Barbosa FAR, Bezerra-Neto JF.  2015.  Seasonal Changes in Metabolic Rates of Two Tropical Lakes in the Atlantic Forest of Brazil.
Rudorff CM, Milack JM, MacIntyre S, Barbosa CCF, Novo EMLM.  2011.  Seasonal and spatial variability of CO2 emission from a large floodplain lake in the lower Amazon. J. Geophys. Res. 116(G04007)
Shade A, Chiu CY, McMahon KD.  2010.  Seasonal and episodic lake mixing stimulate differential planktonic bacterial dynamics. Microbial Ecology. 59:546-554.
Seelen LMS, Flaim G, Jennings E, Domis LN de Sene.  2019.  Saving water for the future: Public awareness of water usage and water quality. Journal of Environmental Management. 242
Gsell AS, Domis LNS, Naus-Wiezer SMH, Helmsing N, Donk EV, Ibelings BW.  2013.  Saptiotemporal variation in the distribution of chytrid parasites in diatom host populations. Freshwater Biology. 58(3)

Pages

Theme by Danetsoft and Danang Probo Sayekti inspired by Maksimer