Environmental Engineering Reference
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Vincent WF (1983) Phytoplankton production and winter mixing: contrasting effects in two oli-
gotrophic lakes. J Ecol 71:1-20
Vincent W, Gibbs M, Dryden S (1984) Accelerated eutrophication in a New Zealand lake: Lake
Rotoiti, central North Island. NZ J Mar Freshw Res 18:431-440
Volkman JK (1986) A review of sterol markers for marine and terrigenous organic matter. Org
Geochem 9:83-99
Volkman J, Burton H, Everitt D, Allen D (1988) Pigment and lipid compositions of algal and
bacterial communities in Ace Lake, Vestfold Hills, Antarctica. Hydrobiologia 165:41-57
von Elbe JH, Schwartz SJ (1996) Colorants. In: Fennema OR (ed) Food chemistry. Marcel
Dekker, New York, pp 651-722
Wakeham SG (1995) Lipid biomarkers for heterotrophic alteration of suspended particulate
organic matter in oxygenated and anoxic water columns of the ocean. Deep Sea Res Part I
42:1749-1771
Wakeham S, Lee C (1993) Production, transport, and alteration of particulate organic matter in
the marine water column. In: Engel M, Macko S (eds) Org Geochem. Plenum Press, New
York, pp 145-169
Walsby AE, Hayes PK, Boje R, Stal LJ (1997) The selective advantage of buoyancy provided by
gas vesicles for planktonic cyanobacteria in the Baltic Sea. New Phytol 136:407-417
Wang F, Wang X, Zhao Y, Yang Z (2012) Long-term changes of water level associated with chlo-
rophyll a concentration in Lake Baiyangdian, North China. Proc Environ Sci 13:1227-1237
Watson S, McCauley E (1988) Contrasting patterns of net-and nanoplankton production and bio-
mass among lakes. Can J Fish Aquat Sci 45:915-920
Watson S, McCauley E, Downing JA (1992) Sigmoid relationships between phosphorus, algal
biomass, and algal community structure. Can J Fish Aquat Sci 49:2605-2610
Weber TS, Deutsch C (2010) Ocean nutrient ratios governed by plankton biogeography. Nature
467:550-554
Welch EB, Lindell T (1992) Ecological effects of wastewater: applied limnology and pollution
effects. Chap-man and Hall, London
Welschmeyer N, Lorenzen C (1985) Role of herbivory in controlling phytoplankton abundance:
annual pigment budget for a temperate marine fjord. Mar Biol 90:75-86
Wentworth AD, Jones LH, Wentworth P, Janda KD, Lerner RA (2000) Antibodies have the
intrinsic capacity to destroy antigens. PNAS 97:10930-10935
Wentworth P Jr, Jones LH, Wentworth AD, Zhu X, Larsen NA, Wilson IA, Xu X, Goddard WA
III, Janda KD, Eschenmoser A (2001) Antibody catalysis of the oxidation of water. Science
293:1806-1811
Weston K, Fernand L, Mills D, Delahunty R, Brown J (2005) Primary production in the deep
chlorophyll maximum of the central North Sea. J Plankton Res 27:909-922
Westrich JT, Berner RA (1984) The role of sedimentary organic matter in bacterial sulfate reduc-
tion: the G model tested. Limnol Oceanogr 29:236-249
Wheeler PA, Gosselin M, Sherr E, Thibaultc D, Kirchman DL, Benner R, Whitledge TE (1996)
Active cycling of organic carbon in the central Arctic Ocean. Nature 380:697-699
White EM, Kieber DJ, Sherrard J, Miller WL, Mopper K (2010) Carbon dioxide and carbon
monoxide photoproduction quantum yields in the Delaware estuary. Mar Chem 118:11-21
Whitehouse M, Korb R, Atkinson A, Thorpe S, Gordon M (2008) Formation, transport and
decay of an intense phytoplankton bloom within the high-nutrient low-chlorophyll belt of the
Southern Ocean. J Mar Sys 70:150-167
Wilhelm C, Rudolph I, Renner W (1991) A quantitative method based on HPLC-aided pigment
analysis to monitor structure and dynamics of the phytoplankton assemblage-a study from
Lake Meerfelder Maar (Eifel, Germany). Arch Hydrobiol 123:21-35
Williams R, Claustre H (1991) Photosynthetic pigments as biomarkers of phytoplankton pop-
ulations and processes involved in the transformation of particulate organic matter at the
biotrans site (478°N, 208°W). Deep Sea Res Part I 38:347-355
Willstätter R, Stoll A (1913) Die Wirkungen der Chlorophyllase. In: Willstätter R, Stoll A (eds)
Untersuchungen über Chlorophyll. Springer, Berlin, pp 172-187
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