Biology Reference
In-Depth Information
Kremer BP (1976) Distribution and biochemistry of alditols in the genus
Pelvetia
(Phaeophyceae,
Fucales). Br Phycol J 11:239-243
Kremer BP (1978) Patterns of photoassimilatory products in Pacific Rhodophyceae. Can J Bot
56:1655-1659
Kremer BP, Kirst GO (1981) Biosynthesis of 2-O-D-glycerol-D-galactopyranoside (floridoside) in
marine Rhodophyceae. Plant Sci Lett 23:349-357
Lindberg B (1955) Low-molecular carbohydrates in algae. XI. Investigation of
Porphyra
umbilicalis
. Acta Chem Scand 9:1097-1099
Luning K (1990) Seaweeds: their environment, biogeography, and ecophysiology. Wiley, New
York
Maathuis FJM, Amtmann A (1999) K
þ
nutrition and Na
þ
toxicity: the basis of cellular K
þ
/Na
þ
ratios. Ann Bot 84:123-133
Matsuda N, Kobayashi H, Katoh H, Ogawa T, Futatsugi L, Nakamura T, Bakker EP, Uozumi N
(2004) Na
þ
-dependent K
þ
uptake Ktr system from the cyanobacterium
Synechocystis
sp. PCC
6803 and its role in the early phases of cell adaptation to hyperosmotic shock. J Biol Chem
279:54952-54962
Meng J, Rosell KG, Srivastava LM (1987) Chemical characterization of floridosides from
Porphyra perforata
. Carbohyd Res 161:171-180
Mostaert AS, King RJ (1993) The cell wall of the halotolerant red alga
Caloglossa leprieurii
(Montagne) J. agardh (Ceramiales, Rhodophyta) from freshwater and marine habitats: effect of
changing salinity. Crypt Bot 4:40-46
Nygard CA, Dring MJ (2008) Influence of salinity, temperature and dissolved inorganic carbon
and nutrient concentration on the photosynthesis and growth on
Fucus vesiculosus
from Baltic
and Irish Seas. Eur J Phycol 43:253-262
Reed RH (1983) The osmotic response of
Polysiphonia lanosa
from marine and estuarine sites:
evidence for incomplete recovery of turgor. J Exp Mar Biol Ecol 68:69-93
Reed RH (1984) The effects of extreme hyposaline stress upon
Polysiphonia lanosa
(L.) Tandy
from marine and estuarine sites. J Exp Mar Biol Ecol 76:131-144
Reed RH (1990) Solute accumulation and osmotic adjustment. In: Cole KM, Sheath RG (eds)
Biology of the red algae. Cambridge University Press, Cambdrige, pp 147-170
Remane A (1940) Einf
uhrung in die zoologische
¨
kologie der Nord- und Ostsee. In: Grimpe G,
Wagler E (eds) Die Tierwelt der Nord- und Ostsee, 1a. - Akademische Verlagsgesellschaft
Leipzig, pp 1-238
Rietema H (1993) Ecotypic differences between baltic and north-sea populations of
Delesseria
sanguinea
and
Membranoptera alata
. Bot Mar 36:15-21
Ritchie RJ (1988) The ionic relations of
Ulva lactuca
. J Plant Physiol 33:183-192
Roberts MF (2005) Organic compatible solutes of halotolerant and halophilic microorganisms.
Saline Systems 1:5. doi:
10.1186/1746-1448-1-5
Rousvoal S, Groisillier A, Dittami SM, Michel G, Boyen C, Tonon T (2011) Mannitol-1-P
dehydrogenase activity in
Ectocarpus siliculosus
, a key role for mannitol synthesis in brown
algae. Planta 233:261-273
Rueness J, Kornfeldt RA (1992) Ecotypic differentiation in salinity responses of
Ceramium
strictum
(Rhodophyta) from Scandinavian waters. Sarsia 77:207-212
Russell G (1985) Recent evolutionary changes in the algae of the Baltic Sea. Br Phycol
J 20:87-104
Russell G (1987) Salinity and seaweed vegetation. In: Crawford RMM (ed) The physiological
ecology of amphibious and intertidal plants. Blackwell, Oxford, pp 35-52
Ryther JH, Menzel DW, Corwin N (1967) Influence of the Amazon river outflow on the ecology of
the western tropical Atlantic. I. Hydrography and nutrient chemistry. J Mar Res 25:69-83
Satoh K, Smith CM, Fork DC (1983) Effects of salinity on primary processes of photosynthesis in
the red alga
Porphyra perforata
. Plant Physiol 73:643-647
Schramm W, Nienhuis PH (1996) Marine benthic vegetation. Recent changes and the effects of
eutrophication. Ecol Stud Anal Synth 123:1-470
€
