Colanic acid is an exopolysaccharide common to many enterobacteria isolated from paper-machine slimes

In this study, polysaccharide-producing bacteria were isolated from slimes collected from two Finnish and one Spanish paper mill and the exopolysaccharides (EPSs) produced by 18 isolates were characterised. Most of the isolates, selected on the bases of slimy colony morphology, were members of the family Enterobacteriaceae most frequently belonging to the genera Enterobacter and Klebsiella including Raoultella. All of the EPSs analysed showed the presence of charged groups in the form of uronic acid or pyruvate revealing the polyanionic nature of these polysaccharides. Further results of the carbohydrate analysis showed that the EPS produced by nine of the enterobacteria was colanic acid.     

Cultural and biochemical diversity of pink-pigmented bacteria isolated from paper mill slimes

A study of 25 paper mill slime deposits and one additive revealed nine pink-pigmented bacterial isolates, eight of which were different from pink-pigmented bacteria identified in the paper industry in the middle 1900s. The pink-pigmented bacteria described previously in pulp and paper included Micrococcus agilis, Bacillus subtilis, Serratia sp. and Alcaligenes viscosus. With the exception of one isolate, Micrococcus sp., these isolates possessed many cultural, biochemical and chemical properties which were different from the ones previously reported for paper mills. Eight of these bacteria were Gram-negative rods or filamentous, aerobic and positive for catalase production. Two isolates were methylotrophic, oxidizing methanol and identified as Methylobacterium zatmanii. Cellular fatty acid analysis and other characteristics showed one isolate to be Roseomonas sp. Using 16S rRNA gene sequencing, one isolate which was a Gram-negative rod was identified as Deionococcus grandis. Four bacteria had cells that were long or filamentous and these were isolated from mills with pink slime problems. The identity of one of the filamentous bacteria was determined by 16S rRNA gene sequencing to be close to Flectobacillus sp. strain MWH38. Most of the isolates were susceptible to 11 industrial biocides. Journal of Industrial Microbiology & Biotechnology (2000) 25, 74–80. Received 28 January 2000/ Accepted in revised form 09 June 2000     

Molecular characterization of early colonizer bacteria from wastes in a steel plant

Aims: Forty‐nine bacteria isolated from four newly‐produced waste samples of a steel industry, which had a high content of CaO, MgO, Cr and P₂O₅, were characterized molecularly and phenotypically by susceptibility testing against heavy metals. Methods and Results: Phylogenetic analysis using 16S rRNA gene sequences revealed that the isolates belonged to nine genera, Pseudomonas, Micrococcus, Acinetobacter, Bacillus, Dietzia, Kocuria, Diaphorobacter, Staphylococcus and Brevibacillus. Besides, some isolates could be affiliated to species: M. luteus, Ac. junii, Ac. schindleri, B. cereus, K. marina, D. nitroreducens and Staph. warneri. The bacteria that were characterized are taxonomically diverse, and Pseudomonas and Micrococcus predominated. Fingerprinting BOX‐PCR revealed high genomic heterogeneity among the isolates. Among the heavy metal compounds Zn, Ni, Pb and Cu were least toxic to the bacterial isolates, whereas Ag inhibited all isolates at 0·001 mmol l^?1. Conclusions: Heterotrophic bacteria, affiliated with several phylogentic groups, were able to colonize different wastes of a steel industry. Significance and Impact of the Study: This study extends our knowledge of the early colonizers bacteria populating siderurgic environments. Some of these bacteria could have potential for recycling siderurgic waste for steel production.     

The potential of bacteria isolated from ruminal contents of seaweed‐eating North Ronaldsay sheep to hydrolyse seaweed components and produce methane by anaerobic digestion in vitro

The production of methane biofuel from seaweeds is limited by the hydrolysis of polysaccharides. The rumen microbiota of seaweed‐eating North Ronaldsay sheep was studied for polysaccharidic bacterial isolates degrading brown‐seaweed polysaccharides. Only nine isolates out of 65 utilized > 90% of the polysaccharide they were isolated on. The nine isolates (eight Prevotella spp. and one Clostridium butyricum) utilized whole Laminaria hyperborea extract and a range of seaweed polysaccharides, including alginate (seven out of nine isolates), laminarin and carboxymethylcellulose (eight out of nine isolates); while two out of nine isolates additionally hydrolysed fucoidan to some extent. Crude enzyme extracts from three of the isolates studied further had diverse glycosidases and polysaccharidase activities; particularly against laminarin and alginate (two isolates were shown to have alginate lyase activity) and notably fucoidan and carageenan (one isolate). In serial culture rumen microbiota hydrolysed a range of seaweed polysaccharides (fucoidan to a notably lesser degree) and homogenates of L. hyperborea, mixed Fucus spp. and Ascophyllum nodosum to produce methane and acetate. The rumen microbiota and isolates represent potential adjunct organisms or enzymes which may improve hydrolysis of seaweed components and thus improve the efficiency of seaweed anaerobic digestion for methane biofuel production.     

Cultivable Bacterial Diversity of Alkaline Lonar Lake, India

Aerobic, alkaliphilic bacteria were isolated and characterized from water and sediment samples collected in the winter season, January 2002 from alkaline Lonar lake, India, having pH 10.5. The total number of microorganisms in the sediment and water samples was found to be 10²–10⁶ cfu g⁻¹ and 10²–10⁴ cfu ml⁻¹, respectively. One hundred and ninety-six strains were isolated using different enrichment media. To study the bacterial diversity of Lonar lake and to select the bacterial strains for further characterization, screening was done on the basis of pH and salt tolerance of the isolates. Sixty-four isolates were subjected to phenotypic, biochemical characterization and 16S rRNA sequencing. Out of 64, 31 bacterial isolates were selected on the basis of their enzyme profile and further subjected to phylogenetic analysis. Phylogenetic analysis indicated that most of the Lonar lake isolates were related to the phylum Firmicutes, containing Low G+C, Gram-positive bacteria, with different genera: Bacillus, Paenibacillus, Alkalibacillus, Exiguobacterium, Planococcus, Enterococcus and Vagococcus. Seven strains constituted a Gram-negative bacterial group, with different genera: Halomonas, Stenotrophomonas and Providencia affiliated to γ-Proteobacteria, Alcaligenes to β-Proteobacteria and Paracoccus to α-Proteobacteria. Only five isolates were High G+C, Gram-positive bacteria associated with phylum Actinobacteria, with various genera: Cellulosimicrobium, Dietzia, Arthrobacter and Micrococcus. Despite the alkaline pH of the Lonar lake, most of the strains were alkalitolerant and only two strains were obligate alkaliphilic. Most of the isolates produced biotechnologically important enzymes at alkaline pH, while only two isolates (ARI 351 and ARI 341) showed the presence of polyhydroxyalkcanoate (PHA) and exopolysaccharide (EPS), respectively.     

Recovery of Pseudomonas spp. from chronically fuel oil-polluted soils in Jordan and the study of their capability to degrade short chain alkanes

Enumeration of bacteria and recovery of the dominant species have been conducted for soils contaminated with fuel spills for more than 10 years at seven gas stations in Jordan. Bacterial counts of these polluted soils ranged between 0.68 × 10⁸ and 32.8 × 10⁸ c.f.u./g soil with two different bacterial colony types recovered on agar plates. Phenotypic examination of the recovered bacteria revealed that they belonged mainly to the genus Pseudomonas and was represented by the following species: P. acidovorans, P. putrefaciens, P. cepacia, P. vesicularis and P. fluorescens. The ability of these bacteria to grow on hexane or heptane was revealed by a colorimetric test. Action of five Pseudomonas spp.: Pseudomonas putrefaciens, P. cepacia, P. acidovorans, P. vesicularis and P. fluorescens and Rhodococcus erythropolis on 0.1% (v/v) hexane or heptane was followed at 1, 2, 6 and 12 h. Pseudomonas putrefaciens, P. cepacia and P. acidovorans were capable of degrading both hydrocarbons as indicated by the yellow colour formation (positive reaction); however, P. vesicularis and P. fluorescens showed no such capability.     

RAPD analysis of genetic diversity among the isolates of Aspergillus flavus from different hosts and locations

Aflatoxin contamination is a major problem in maize, groundnut, chillies, cotton and tree nuts. These aflatoxins are low molecular weight toxic and carcinogenic secondary metabolites produced by Aspergillus flavus, A. parasiticus and A. nomius. In the present study, a total of 11 isolates of A. flavus isolated from groundnut, maize and chilli collected from different locations of Tamil Nadu, India were tested for their ability to produce aflatoxin B1 (AFB1) in vitro by indirect competitive enzyme-linked immunosorbent assay. The results show that the isolates vary in their level of toxin production. The amount of AFB1 produced by the toxigenic isolates of A. flavus ranged from 6.6 to 108.1?ng?ml^?1. Among the various isolates of A. flavus, the isolate VKR produced the highest amount (108.1?ng?ml^?1) of AFB1. The isolates viz. CBE1, CBE2, BSR1, BSR3 and BSR4 were found to be non-toxigenic. The genetic variability among these isolates was assessed by Random amplified polymorphic DNA (RAPD) analysis. DNA fragments of between 0.15 and 3.0?kb were obtained using 13 random primers, and each isolate differed in the size and number of PCR products indicating considerable polymorphism. Cluster analysis using Unweighted Pair Group Method with Arithmetic Mean clearly separated the isolates into four main clusters confirming the genetic diversity among the isolates of A. flavus. Both toxigenic and non-toxigenic isolates were intermingled in these four groups, indicating that no relationship exists between RAPD profile and the production of aflatoxin by A. flavus.     

Identification of bacteria contaminating pulp and a paper machine in a Canadian paper mill

Over 100 bacteria from pulp and slime samples in a Canadian paper mill were identified by partial sequencing of their 16S rDNAs. Seventy-one percent of the isolates could be assigned to a bacterial genus with a high level of confidence. Another 12% exhibited at least 95% similarity within their 16S rDNA sequence with unidentified organisms that originate from warm or wet environments. Pseudomonas, Bacillus, and Pseudoxanthomonas isolates were represented at a relatively high proportion in both pulp and slime samples. This is the first time that Pseudoxanthomonas strains have been isolated from pulp and slime samples on a paper machine. Electronic Publication     

Isolation of Nitrogen Fixing Bacteria from Fungus Termites

Biological nitrogen fixation by the microorganisms in the gut of termites is one of the singularly important symbiotic processes, since termites invariably thrive on nitrogen poor diet. Two isolates of free living aerobic and facultative anaerobic N fixing bacteria were obtained from the guts of fungus cultivating termite, Macrotermes sp. Among the total bacterial isolates from termite gut, the per cents of N fixing aerobes viz., Azotobacter and Beijerinckia spp were 49% and 37% from the salivary gland while facultative N fixing anaerobe viz., Klebsiella and Clostridium contributed (51% and 93%). The free living aerobic bacteria were identified as Azotobacter spp (19 x 10⁴ CFU mL^‐1) and Beijerinckia (13.2 x 10⁴ CFU mL^‐1) from the salivary gland of the termite; interestingly, foregut, mid gut and hind gut registered a low population of these bacteria. The isolates of Azotobacter were smooth, glistening, vicid in nature, rods, gram negative and cyst forming. Isolates of Beijerinckia sp. produced copious slime, tenacious, rods, gram negative with no cyst formations. Both the isolates emitted green fluorescence and produced acid. Facultative N fixing anaerobes were harbored in the hind gut. The isolates were identified as Klebsiella (20 x 10⁴ CFU mL^‐1) and Clostridium pasteurianum 39.1 x 10⁴ CFU mL^‐1. Klebsiella were straight rods arranged singly or in pairs, non‐motile, gram negative, whereas Clostridium pasteurianum was viscoid, motile with terminal spores. A positive correlation was observed between the extractable polysaccharides of these isolates and soil aggregation. The aggregates formed by the isolates increased soil aeration, porosity, water holding capacity and helped in better plant growth. Thus, the gut microflora of termite, apart from harnessing nitrogen from the atmosphere, also helps improving soil fertility.     

Colonisation and bioerosion of experimental substrates by benthic foraminiferans from euphotic to aphotic depths (Kosterfjord, SW Sweden)

In the cold-temperate setting of the Swedish Kosterfjord area, experimental carbonate and PVC substrates were deployed for a 6, 12 and 24-month duration along a transect from euphotic to aphotic depths in order to study bioerosion and carbonate accretion patterns. Among the organisms that contribute to the latter by secreting calcareous skeletons, epibenthic foraminiferans represent a major component, both in terms of diversity (a dozen species) as well as in the number of individuals (exceeding 50,000 individuals per m² at certain depths). The by far dominating species were found to be Cibicides lobatulus and the agglutinating Lituotuba lituiformis, along with smaller numbers of Planorbulina mediterranensis, Tholosina vesicularis and Nubecularia lucifuga. The foraminiferal distribution exhibits a pronounced abundance maximum in shallow waters at 7 and especially 15 m and a maximum in diversity at 15-50 m water depth. Some of the foraminiferans encountered, such as Cibicides lobatulus and the rare Gypsina vesicularis, were found to contribute also to the bioerosion of the calcareous substrates by etching shallow attachment scars. These prominent traces witness the former presence of benthic foraminiferans on fossil to Recent hardgrounds, inferring a potential applicability as an in situ proxy where tests are not preserved. Estimated minimum carbonate production rates for the dominant Cibicides lobatulus reach a maximum of 0.326 g/m²/year with the highest rates occurring at 7 to 30 m water depth. Carbonate production rates are up to two magnitudes higher on the PVC (0-0.326 g/m²/year) than on the carbonate substrates (0-0.010 g/m²/year) and are considerably higher than estimates previously reported from the western Baltic.     

Clarification of microbial polysaccharides with enzymes secreted fromLysobacter species

Summary Different species of Gram-negativeLysobacter grown in liquid culture secrete a variety of hydrolytic enzymes. The natural enzyme mixtures lyse several Gram-negative polysaccharide-producing bacteria of commercial importance, especiallyXanthomonas campestris. We describe optimal methods for producing and using the lytic enzymes to clarify microbial polysaccharides and show that the proteases are responsible for lysingX. campestris.     

Studies on slime-forming organisms of a paper mill—slime production and its control

Bacteria, yeast and filamentous fungi were isolated from various sites within a paper mill. Bacillus alvei and Aerobacter aerogenes were the most prevalent contaminating bacteria. Maximum slime was produced by A. aerogenes (4.2 mg ml⁻¹) at pH 6.5 and by B. alvei (7.2 mg ml⁻¹) at pH 7.5 in white water. The optimum temperature was 40°C for maximum slime production by both organisms. In the presence of levanase, a 25% reduction in dosages of a biocide (Bioplus^?) was observed. Killing of A. aerogenes, which was achieved in 8 h with 20 ppm Bioplus^?, could be obtained in 6 h with the combined use of levanase and a lower concentration of Bioplus^? (15 ppm). With B. alvei almost the same inhibitory effect (4.22-log decrease) was obtained at 20 ppm Bioplus^?, and in combination with a lower concentration of Bioplus^? (15 ppm) and enzyme. The paper properties did not show any adverse effect after treatment with levanase and Bioplus^?. Received 21 March 1995/ Accepted in revised form 15 February 1997     

Isolation and Molecular Characterization of Heavy Metal-Resistant Alcaligenes faecalis from Sewage Wastewater and Synthesis of Silver Nanoparticles

Environmental pollution with toxic heavy metals is increasing throughout the world alongside industrial development. Microorganisms and microbial products can be highly efficient bioaccumulators of soluble and particulate forms of metals, especially dilute external solutions. Microbe related technologies (Biotechnology) may provide an alternative or additive conventional method for metal removal or metal recovery. This study dealt with isolation, identification and characterization of heavy metal-resistant (Pb²⁺, Cd²⁺, Al³⁺, Cu²⁺, Ag²⁺ and Sn²⁺) bacteria from sewage wastewater at Taif Province, Saudi Arabia. Nine bacterial isolates were selected by using an enrichment isolation procedure based on high level of heavy metal resistance. All the isolates showed high resistance to heavy metals with Minimum Inhibitor Concentration (MIC) ranging from 800 μg/ml to 1400 μg/ml. All nine resistant isolates showed multiple tolerances to heavy metals. On the basis of morphological, biochemical and 16S rRNA characterization, the most potent isolates (Cd1-1, Ag1-1, Ag1-3 and Sn1-1) were identified as Alcaligenes faecalis. Scanning electron microscope analysis showed that the morphology of Alcaligenes faecalis Ag1-1 was unchanged after growth in medium without and with addition of Ag²⁺ indicative Ag²⁺ is not toxic to the isolate under the conditions tested. The ability of Alcaligenes faecalis Ag1-1 to synthesize sliver nanoparticles was examined. The heavy metal-resistant bacteria obtained could be useful for the bioremediation of heavy metal-contaminated environment.     

Orthogonal Test Design for Optimization of the Extraction of Polysaccharides from Inonotus cuticularis and Their Antioxidant Activities

Medical fungi polysaccharides belong to a very important species of biological macromolecules, which are the basic substances that effectively maintain and ensure the normal operation of biological life activities. However, research on extraction and biological activity of Inonotus cuticularis polysaccharides has never been reported. In this study, the optimum yield of Inonotus cuticularis polysaccharides was determined by the orthogonal experimental design. The highest yield of 3.10±0.06 % was obtained with extraction temperature of 80 °C, extraction time of 150 min, and water to raw material ratio of 30 mL/g and repeated twice. After deproteinization for 5 times, the protein removal rate reached 70.10±1.75 %, and the content of polysaccharides and protein were 46.64 and 0.42 %. Infrared spectrometer indicated that Inonotus cuticularis polysaccharides are typical β‐pyranose with characteristic peaks of polysaccharides. Subsequently, the activities of scavenging free radicals for the deproteinated polysaccharides were studied. When the concentration of Inonotus cuticularis polysaccharides was 0.3 mg/mL, the scavenging activities of the sample on DPPH^., ^.OH, ABTS^.+ and O₂^.? reached 83.67±0.27, 65.21±4.82, 43.45±1.36 and 80.28±2.30 %, respectively, and the reducing power reached 0.46±0.01. The IC₅₀ values scavenging DPPH^., ^.OH, ABTS^.+ and O₂^.? were 0.139±0.13, 0.162±0.14, 0.317±0.30 and 0.121±0.10 mg/mL, respectively. Results showed that Inonotus cuticularis polysaccharides present potential stronger antioxidant activities, especially ^.OH scavenging activity and reducing power. Experimental results could provide research basis of Inonotus cuticularis polysaccharides for further exploitation and utilization.     

Isolation and characterization of <Emphasis Type="Italic">Pseudoalteromonas ruthenica</Emphasis> (SBT033), an EPS-producing biofilm bacterium from the seawater intake point of a tropical power station

Biofilm formation in bacteria is closely linked with production of exopolysaccharides (EPS). This study examined the quantitative variations in EPS production and biofilm-forming ability among bacteria isolated from the seawater intake point of a power station located on the east coast of India. Of the 233 isolates obtained from the intake site, 71 bacterial isolates displayed different colony morphological characteristics. Thirteen isolates that produced wide and thick mucoid colonies were further tested for their ability to attach and form biofilms by microtitre plate assay and confocal microscopy. EPS production among the selected bacterial isolates ranged from 826 to 1838 μg ml⁻¹. Strain SBT033, which produced the maximum amount of EPS also displayed the maximum biofilm-forming ability among the 13 isolates. This strain was selected for further characterization using biochemical and molecular methods. The pale orange-pigmented isolate was a Gram negative, aerobic, short rod-shaped and grew well only in the presence of 2% NaCl. On the basis of phenotypic characteristics the isolate SBT033 is shown to belong to the genus Pseudoalteromonas. Analysis of 16S rRNA of the isolate revealed 99% homology with Pseudoalteromonas ruthenica.     

Characterization of exopolysaccharides produced by rhizobacteria

Summary Bacteria isolated from the rhizosphere, the rhizobacteria, of sorghum, pearl millet, wheat, alfalfa and rice were screened for the production of exopolysaccharide (EPS). Nearly a quarter of the strains produced exopolysaccharides, either capsular or hydrosoluble slime. A majority of the isolates produced slime. Physico-chemical analyses have indicated the ability of certain diazotrophic Pseudomonas paucimobilis isolates from millets and sorghum to produce unique types of EPS, which are highly viscous and thermostable.Correspondence to: T. Heulin     

Studies on the Extracellular Polysaccharides (EPS) Produced in vitro by Pseudomonas phaseolicola I. Indications for a Polysaccharide Resembling Alginic Acid in Seven P. syringae Pathovars

Extracellular polysaccharides (EPS) produced by Pseudomonas syringae pv. phaseolicola are obviously composed of two main components: the long known levan consisting of fructose, and a mannuronan consisting mainly of mannuronic acid (manA), thus resembling alginic acid (alginate). The identification of manA was established by TLC utilizing different developing systems, and by cellulose acetate electrophoresis in different buffers. References were authentic uronic acids and hydrolyzed authentic alginate. A rough quantification of the “alginate” present in crude EPS was achieved with a selective colour reaction which largely excluded compounds other than uronic acids. Levan was only synthesized with sucrose as primary carbon source. When grown on several other sugars and related compounds “alginate” was the predominant component of the EPS. Additionally, rhamnose, fucose, glucose and amino sugars were found in some instances in hydrolysates of crude EPS, suggesting the release of lipopolysaccharides (LPS) from the bacterial cell walls during culture. Growth on carbon sources not related to sugars resulted in these “LPS” as the main constituent of EPS. After cultivation with sucrose, the “alginate” was restricted to the “slime” fraction of the EPS. In the “capsular” fraction, levan was predominating. A screening program revealed the capacity to synthesize the “alginate” in six additional P. syringae pathovars: pisi, lachrymans, aptata, tomato, syringae, and glycinea. All of the strains tested so far produced levan from sucrose, however, the “alginate” was formed not by all of them. There was a tendency that fresh isolates produced more “alginate” than strains subcultured for an extended time in vitro. This was also true for the total amount of EPS.     

Composition,secretion kinetics and radioactive labelling of the extracellular slime polysaccharide secreted during spherulation ofPhysarum polycephalum

The myxomycetePhysarum polycephalum synthesizes copious amounts of slime when differentiating into the hard walled resting stage. The chemical composition of slime obtained after introduction of spherulation in a nutrient and a non-nutrient salt-medium has been analysed and compared. The composition of slime is almost identical after the two different induction methods. This slime could be labelled with radioactived-[U-¹⁴C]glucose,³²PO₄ ^3–,³⁵SO₄ ^2– and⁷⁵SeO₄ ^2–. The kinetics of slime secretion after both induction methods has been followed using different criteria. The sulfate analog⁷⁵SeO₄ ^2– seems to be incorporated into the slime, partially replacing sulfate groups of the sulfated polysaccharide. Furthermore,d-[U-¹⁴C]glucose was used to labe the spherule walls. Determination of an alkali resistent polysaccharide component serves as a new method to follow wall formation.     

PRELIMINARY INVESTIGATION OF THE DOUBLE-DIFFUSION TECHNIQUE AS A TOOL IN DETERMINING RELATIONSHIPS AMONG SOME MYXOMYCETES,ORDER PHYSARALES

Double-diffusion technique was used to investigate myxomycete relationships within the order Physarales. Extracts of plasmodia of 22 slime mold isolates were reacted with five antisera produced to Plasmodia of Didymium nigripes, Physarella oblonga, Physarum polycephalum, Physarum gyrosum and Fuligo septica. Two isolates of Fuligo septica tested alike. Four isolates of Physarum pusillum did not test alike, and no valid conclusion of the relationship of this species was possible. These isolates showed strong serological affinity: (1) Physarum gyrosum, Physarella oblonga, two isolates of Fuligo septica, and possibly two isolates of Physarum pusillum, and Physarum tenerum; (2) Physarum polycephalum and Physarum flavicomum; (3) Fuligo septica and many of the species tested; (4) Didymium nigripes and at least one isolate of Didymium iridis. In most cases serologial relationships among species tested did not coincide with current taxonomy based on morphology of fructification.     

PHYSIOLOGICAL ECOTYPES IN THE MARINE ALGA BOSTRYCHIA RADICANS (CERAMIALES,RHODOPHYTA) FROM THE EAST COAST OF THE U.S.A1

The comparative ecophysiology of nine culture isolates of the eulittoral red alga Bostrychia radicans (Montagne) Montague collected at sites from seven states along the east coast of the U.S.A. was investigated. The growth response in relation to different salinity and light conditions as well as photosynthesis-irradiance curves were studied. In addition, the effect of salt treatment on the content of the isomeric polyols d -sorbitol and d -dulcitol was also studied. All isolates grew between salinities of 5.3 and 70 ppt but with quite different optima and maxima. The isolates were all adapted to low light levels, i.e. growth was already recorded at 2.5 μmol photons·m^?2·s^?1, and growth rates peaked between 40 and 60 μmol photons·m^?2·s_-1. These low-light requirements were also reflected by the photosynthesis-irradiance curves: all plants had low light compensation points (2.5–9.7 μmol photons ·m^?2·^?1) and low photon fluence rates for initial saturation of photosynthesis (38.1–84.7 μmol photons·m^?2·s^?1, indicating that these isolates are “shade-adapted.” Isolates from Florida and Georgia synthesized and accumulated both the osmolytes d -sorbitol and d -dulcitol in increasing salinities, whereas only d -sorbitol was present in plants from North Carolina north to Connecticut. d -sorbitol was always strongly involved in osmotic acclimation. In various isolates from the same location in South Carolina, both polyol patterns were found, i.e. d -sorbitol plus d -dulcitol and d -sorbitol only. All data indicate that B. radicans exhibits a broad salinity tolerance and a low-light preference, which explain the successful colonization of this alga on various intertidal and shaded substrates. The data also clearly indicate intraspecific differences among the nine isolates, which is interpreted as development of different physiological ecotypes.