Environmental Engineering Reference
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Brewin RJW, Sathyendranath S, Hirata T, Lavender SJ, Barciela RM, Hardman-Mountford NJ
(2010) A three-component model of phytoplankton size class for the Atlantic Ocean. Ecoll
Model 221:1472-1483
Brown SB, Houghton JD, Hendry GAF (1991) Chlorophyll breakdown. In: Scheer H (ed)
Chlorophylls. CRC press, Boca Raton, pp 465-489
Brunet C, Brylinski J, Frontier S (1992) Productivity, photosynthetic pigments and hydrology in
the coastal front of the Eastern English Channel. J Plankton Res 14:1541-1552
Buchanan C, Lacouture RV, Marshall HG, Olson M, Johnson JM (2005) Phytoplankton reference
communities for Chesapeake Bay and its tidal tributaries. Estuar Coasts 28:138-159
Buckle K, Edwards R (1970) Chlorophyll, colour and pH changes in HTST processed green pea
puree. Int J Food Sci Technol 5:173-186
Budy P, Luecke C, Wurtsbaugh WA, Gross H, Gubala C (1995) Limnology of the Sawtooth
Valley lakes with respect to potential growth of juvenile Snake River sockeye salmon.
Northwest Sci 69:133-150
Burrell JWK, Jackman LM, Weedon BCL (1959) Stereo-chemistry and synthesis of phytol,
geraniol and nerol. Proc Chem Soc 1959:263-265
Bursche EM (1961) Änderungen im Chlorophyllgehalt und im Zellvolumen bei Planktonalgen,
hervorgerufen durch unterschiedliche Lebensbedingungen. Int Rev Ges Hydrobiol 46:610-652
Bushaw KL, Zepp RG, Tarr MA, Schulz-Jander D, Bourbonniere RA, Hodson RE, Miller WL,
Bronk DA, Moran MA (1996) Photochemical release of biologically available nitrogen from
aquatic dissolved organic matter. Nature 381:404-407
Calbet A, Landry MR (2004) Phytoplankton growth, microzooplankton grazing, and carbon
cycling in marine systems. Limnol Oceanogr 49:51-57
Calbet A, Atienza D, Henriksen CI, Saiz E, Adey TR (2009) Zooplankton grazing in the Atlantic
Ocean: a latitudinal study. Deep Sea Res Part II 56:954-963
Calijuri M, Cunha D, Queiroz L, Moccellin J, Miwa A (2008) Nutrients and chlorophyll-a
concentrations in tropical rivers of Ribeira do Iguape Basin, SP, Brazil. Acta Limnol Bras
20:131-138
Camacho A (1997) Ecología de los microorganismos fotosintéticos en las aguas microaerobias y
anóxicas de la Laguna de Arcas. Ph D Thesis, University of Valencia, Valencia, Spain, p 360
Camacho A (2006) On the occurrence and ecological features of deep chlorophyll maxima
(DCM) in Spanish stratified lakes. Limnetica 25:453-478
Camacho A, Miracle MR, Vicente E (2003) Which factors determine the abundance and distribu-
tion of picocyanobacteria in inland waters? A comparison among different types of lakes and
ponds. Arch Hydrobiol 157:321-338
Canjura FL, Schwartz SJ, Nunes RV (1991) Degradation kinetics of chlorophylls and chlorophyl-
lides. J Food Sci 56:1639-1643
Carpenter SR, Kinne O, Wieser W (2003) Regime shifts in lake ecosystems: pattern and varia-
tion. Excellence in ecology series, vol 15. Ecology Institute, Luhe, Germany
Carrillo P, Medina-Sánchez JM, Villar-Argaiz M (2002) The interaction of phytoplankton and
bacteria in a high mountain lake: importance of the spectral composition of solar radiation.
Limnol Oceanogr 47:1294-1306
Carstensen J, Conley DJ, Henriksen P (2004) Frequency, composition, and causes of sum-
mer phytoplankton blooms in a shallow coastal ecosystem, the Kattegat. Limnol Oceanogr
49:191-201
Castle JW, Rodgers JH Jr (2009) Hypothesis for the role of toxin-producing algae in Phanerozoic
mass extinctions based on evidence from the geologic record and modern environments.
Environ Geosci 16:1-23
Chapin BRK, DeNoyelles F Jr, Graham DW, Smith VH (2004) A deep maximum of green sul-
phur bacteria ('Chlorochromatium aggregatum') in a strongly stratified reservoir. Freshw
Biol 49:1337-1354
Chapra SC (1997) Surface water-quality modeling. McGraw-Hill, New York
Chen M, Schliep M, Willows RD, Cai ZL, Neilan BA, Scheer H (2010) A red-shifted chloro-
phyll. Science 329:1318-1319
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