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Surface Population (surface + population)

Distribution by Scientific Domains
Life Sciences60%
Chemistry40%

Selected Abstracts

Heat-Induced Alterations in the Surface Population of Metal Sites in Bimetallic Nanoparticles.

CHEMINFORM, Issue 40 2007
Bing-Joe Hwang
Abstract ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 200 leading journals. To access a ChemInform Abstract, please click on HTML or PDF. [source]

Enzymes involved in flavour formation by bacteria isolated from the smear population of surface-ripened cheese

INTERNATIONAL JOURNAL OF DAIRY TECHNOLOGY, Issue 1 2004
A G Williams
Twenty-five bacterial isolates recovered from the surface population of smear-ripened cheese were assigned phenotypically as Brevibacterium spp., Corynebacterium spp. and Aureobacterium spp. using the Biolog GP2 microplate system and database. The range and activity of hydrolytic enzymes involved in the formation of cheese flavour constituents were monitored in cell-free lysates of the isolates. Esterase activity and the presence of a range of enzymes involved in amino acid release and breakdown was confirmed in all strains examined although there were pronounced interspecies and strain differences in the level of activity detected. Peptidolytic activities present in the smear bacteria included dipeptidyl peptidase and aminopeptidases that cleaved various N-terminal amino acids including proline. Subsequent breakdown of the released aromatic and branched-chain amino acids was mediated by ,-keto acid dependent aminotransferase action and several of the isolates were able to form thiols from sulphur-containing amino acid precursors. It was confirmed that the enzymic activity of the smear population could be manipulated by the use of defined starter cultures comprising selected combinations of smear isolates. The hydrolytic activities of the smear bacteria are involved in the generation of cheese flavour compounds and the enzyme profile is thus an important selection criterion for strains to be evaluated for use in defined surface smear preparations. [source]

Inactivation of Escherichia coli O157:H7, Salmonella enteritidis and Listeria monocytogenes on the surface of tomatoes by neutral electrolyzed water

LETTERS IN APPLIED MICROBIOLOGY, Issue 6 2003
M.A. Deza
Abstract Aims:, To determine the efficacy of neutral electrolyzed water (NEW) in killing Escherichia coli O157:H7, Salmonella enteritidis and Listeria monocytogenes, as well as nonpathogenic E. coli, on the surface of tomatoes, and to evaluate the effect of rinsing with NEW on the organoleptic characteristics of the tomatoes. Methods and Results:, The bactericidal activity of NEW, containing 444 or 89 mg l,1 of active chlorine, was evaluated over pure cultures (8·5 log CFU ml,1) of the above-mentioned strains. All of them were reduced by more than 6 log CFU ml,1 within 5 min of exposure to NEW. Fresh tomatoes were surface-inoculated with the same strains, and rinsed in NEW (89 mg l,1 of active chlorine) or in deionized sterile water (control), for 30 or 60 s. In the NEW treatments, independent of the strain and of the treatment time, an initial surface population of about 5 log CFU sq.cm,1 was reduced to <1 log CFU sq.cm,1, and no cells were detected in the washing solution by plating procedure. A sensory evaluation was conducted to ascertain possible alterations in organoleptic qualities, yielding no significant differences with regard to untreated tomatoes. Significance and Impact of the Study:, Rinsing in NEW reveals as an effective method to control the presence of E. coli O157:H7, S. enteritidis and L. monocytogenes on the surface of fresh tomatoes, without affecting their organoleptic characteristics. This indicates its potential application for the decontamination of fresh produce surfaces. [source]

DO PHYSICAL FACTORS REGULATE PHYTOPLANKTON DISTRIBUTION PATTERNS IN LARGE, SHALLOW LAKES?

JOURNAL OF PHYCOLOGY, Issue 2000
H.J. Carrick
Factors that regulate phytoplankton dynamics in shallow, productive lakes are poorly understood, due to their predisposition for frequent algal blooms and sediment resuspension events. In Lake Apopka, greatest phytoplankton biomass reflects wind-induced resuspension of algae (meroplankton) that exists on the aphotic lake bottom in a layer approximately 5 cm thick; this assemblage is dominated by diatoms (>60% of total biomass) that can occur in resting stages. Once exposed to moderate light, meroplankton are capable of growth and photosynthetic rates comparable with surface populations. In Lake Okeechobee, remote sensing was used to assess the basin-wide distribution of suspended particles. Satellite reflectance values agreed well with in situ particle densities at 20 in-lake stations (average r2; LANDSAT = 0.81, AVHRR = 0.53), and maps of algal blooms (r2 = 0.79, p , 0.01). The greatest chlorophyll concentrations occurred in the vicinity of tributary nutrient inputs at the lake's perimeter, while turbidity increased towards the center of the lake reflecting predominant water circulation patterns. These results underscore the importance of physical-biological interactions in lakes. [source]

Geography of morphological differentiation in Asellus aquaticus (Crustacea: Isopoda: Asellidae)

JOURNAL OF ZOOLOGICAL SYSTEMATICS AND EVOLUTIONARY RESEARCH, Issue 2 2009
S. Prevor
Abstract We implemented a detailed morphometry and multivariate statistics to establish a general, large-scale racial differentiation in Asellus aquaticus (L.) sensu Racovitza. We ascertained that in surface populations a set of 11 morphometric characters might equivalently be represented by the pleopod respiratory area size alone. The analyses resulted in a distinct distribution pattern, with the large respiratory area populations disposed mainly along the Dinaric karst between southern Slovenia and western Macedonia and surrounded by the medium respiratory area morph, spatially irregularly substituted by the small area morph. This pattern is in contradiction with the distribution pattern of molecularly defined clades (as shown by Verovnik et al. 2005). We could find no ecological, hydrographical or paleogeographical explanations for such distribution pattern either. The only hypothetical explanation would be a preservation of the large respiratory area as a plesiomorphic character in the comparatively sheltered karst habitats, while throughout the easier accessible parts of the species range it was replaced by the ,modern' smaller area size. While a diminution of the respiratory area functionally means an increased sclerotization , hardening of pleopod IV,V exopodites, endopodites of pleopods III,V remain less sclerotized, probably respiratory and osmoregulatory functional. Zusammenfassung Die globale Rassendifferenzierung von Asellus aquaticus (L.) sensu Racovitza wurde anhand eingehender Morphometrie und multivariater Statistik untersucht. Es stellte sich heraus, dass der gesamte Satz von 11 morphometrischen Merkmalen allein durch das Merkmal ,Flächengröße der Pleopoden-Respirationsfläche' ersetzt werden kann. Die Analysen ergaben ein deutliches Muster, in dem Populationen mit großen Respirationsflächen überwiegend im Dinarischen Karst zwischen Süd-Slowenien und West-Makedonien verbreitet sind, von Morphen mit mittelgroßen Respirationsflächen umgeben werden, welche wiederum räumlich zerstreut von Morphen mit kleinen Respirationsflächen ersetzt werden. Dieses Muster widerspricht der Verbreitung von molekular-systematisch ermittelten Gruppen (Verovnik et al. 2005). Wir konnten keine ökologische, hydrographische oder paläogeographische Erklärung dafür finden. Die einzige hypothetische Erklärung könnte eine Erhaltung der großen Respirationsflächen als eines plesiomorphen Merkmals in vergleichsweise isolierten Karstgebieten sein, während sie in leichter besiedelbaren Gebieten von den ,modernen' kleineren Respirationsflächen ersetzt wurden. Es muss betont werden, dass eine Verkleinerung der Respirations-Area mit der Sklerotisierung der Exopoditen an den Pleopoden IV-V verbunden ist, während die Endopoditen der Pleopoden III-V ihre geringe Sklerotisierung beibehalten und somit wahrscheinlich atmungs- und osmoregulatorisch aktiv bleiben. [source]