MARC details
| 000 -LEADER |
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| fixed length control field |
13365cam a22002417a 4500 |
| 001 - CONTROL NUMBER |
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| control field |
14093520 |
| 003 - CONTROL NUMBER IDENTIFIER |
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| control field |
OSt |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
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| control field |
20220214171949.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
27cm |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780873715645 |
| 040 ## - CATALOGING SOURCE |
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| Original cataloging agency |
BUL |
| Transcribing agency |
BUL |
| Modifying agency |
BUL |
| Language of cataloging |
Eng. |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Classification number |
576.192 |
| Edition number |
22 |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Personal name |
Kemp, Paul F. |
| 245 10 - TITLE STATEMENT |
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| Title |
Handbook of Methods in Aquatic Microbial Ecology/ |
| Statement of responsibility, etc. |
edited by Paul F. Kemp [ et al.] |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. |
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| Place of publication, distribution, etc. |
New York |
| Name of publisher, distributor, etc. |
CRC Press |
| Date of publication, distribution, etc. |
c1993 |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
777 p. ; |
| Dimensions |
26cm |
| 500 ## - GENERAL NOTE |
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| General note |
Table of contents<br/><br/>Chapter 1|11 pages<br/>Isolation and Enumeration of Anaerobic and Microaerophiiic Bacteria in Aquatic Habitats<br/>ByM. J. Ferrara-Guerrero, D. G. Marty, A. Bianchi<br/>Abstract <br/><br/>Chapter 2|10 pages<br/>Isolation and Cultivation of Hyperthermophilic Bacteria from Marine and Freshwater Habitats<br/>ByJohn A. Baross<br/>Abstract <br/><br/>Chapter 3|2 pages<br/>Isolation of Psychrophilic Bacteria<br/>ByRichard Y. Morita<br/>Abstract <br/><br/>Chapter 4|7 pages<br/>Isolation and Characterization of Bacteriocytes from a Bivalve-Sulfur Bacterium Symbiosis<br/>BySteven C. Hand, Amy E. Anderson<br/>Abstract <br/><br/>Chapter 5|10 pages<br/>General Techniques for the Isolation and Culture of Marine Protists from Estuarine, Littoral, Psammolittoral, and Sublittoral Waters<br/>ByJohn J. Lee<br/>Abstract <br/><br/>Chapter 6|8 pages<br/>Long-Term Culture of Marine Benthic Protists<br/>ByPhilip G. Carey<br/>Abstract <br/><br/>Chapter 7|8 pages<br/>Behavior and Bioenergetics of Anaerobic and Microaerobic Protists<br/>ByB. J. Finlay<br/>Abstract <br/><br/>Chapter 8|9 pages<br/>Culturing Free-Living Marine Phagotrophic Dinoflagellates<br/>ByEvelyn J. Lessard<br/>Abstract <br/><br/>Chapter 9|13 pages<br/>Enrichment, Isolation, and Culture of Free-Living Heterotrophic Flagellates<br/>ByDavid A. Caron<br/>Abstract <br/><br/>Chapter 10|6 pages<br/>Determination of Pressure Effects on Flagellates Isolated from Surface Waters<br/>ByC. M. Turley<br/>Abstract <br/><br/>Chapter 11|5 pages<br/>Isolation, Cloning, and Axenic Cultivation of Marine Cilliates<br/>ByA. T. Soldo, S. A. Brickson<br/>Abstract <br/><br/>Chapter 12|6 pages<br/>Isolation and Laboratory Culture of Marine Oligotrichous Ciliates<br/>ByDian J. Gifford<br/>Abstract <br/><br/>Chapter 13|6 pages<br/>Extraction of Protists in Aquatic Sediments via Density Gradient Centrifugation<br/>ByDaniel M. Alongi<br/>Abstract <br/>Section II|186 pages<br/>Identification, Enumeration, and Diversity<br/><br/>Chapter 14|3 pages<br/>Statistical Analysis of Direct Counts of Microbial Abundance<br/>ByDavid L. Kirchman<br/>Abstract <br/><br/>Chapter 15|14 pages<br/>Enumeration and Isolation of Viruses<br/>ByCurtis A. Suttle<br/>Abstract <br/><br/>Chapter 16|4 pages<br/>Total Count of Viruses in Aquatic Environments<br/>ByGynoar Bratbak, Mikal Heldal<br/>Abstract <br/><br/>Chapter 17|4 pages<br/>Improved Sample Preparation for Enumeration of Aggregated Aquatic Substrate Bacteria<br/>ByM. Iqubal Velji, Lawrence J. Albright<br/>Abstract <br/><br/>Chapter 18|5 pages<br/>Direct Estimates of Bacterial Numbers in Seawater Samples Without Incurring Cell Loss Due to Sample Storage<br/>ByC.M. Turley<br/>Abstract <br/><br/>Chapter 19|6 pages<br/>Total and Specific Bacterial Counts by Simultaneous Staining with DAPI and Fluorochrome-Labeled Antibodies<br/>ByKjell Arne Hoff<br/>Abstract <br/><br/>Chapter 20|7 pages<br/>Use of RFLPs for the Comparison of Marine Cyanobacteria<br/>BySusan E. Douglas<br/>Abstract <br/><br/>Chapter 21|11 pages<br/>Use of High-Resolution Flow Cytometry to Determine the Activity and Distribution of Aquatic Bacteria<br/>ByD. K. Button, B. R. Robertson<br/>Abstract <br/><br/>Chapter 22|12 pages<br/>Phytoplankton Analysis Using Flow Cytometry<br/>ByRobert J. Olson, Erik R. Zettler, Michele D. DuRand<br/>Abstract <br/><br/>Chapter 23|11 pages<br/>Enumeration of Phototrophic Picoplankton by Autofluorescence Microscopy<br/>ByErland A. Maclsaac, John G. Stockner<br/>Abstract <br/><br/>Chapter 24|7 pages<br/>Estimating Cell Concentration and Biomass of Autotrophic Plankton Using Microscopy<br/>ByBeatrice C. Booth<br/>Abstract <br/><br/>Chapter 25|6 pages<br/>Preservation and Storage of Samples for Enumeration of Heterotrophic Protists<br/>ByEvelyn B. Sherr, Barry F. Sherr<br/>Abstract <br/><br/>Chapter 26|15 pages<br/>Staining of Heterotrophic Protists for Visualization via Epifluorescence Microscopy<br/>ByEvelyn B. Sherr, David A. Caron, Barry F. Sherr<br/>Abstract <br/><br/>Chapter 27|12 pages<br/>A Quantitative Protargol Stain (QPS) for Ciliates and Other Protists<br/>ByD. J. S. Montagnes, D. H. Lynn<br/>Abstract <br/><br/>Chapter 28|11 pages<br/>Preparation of Pelagic Protists for Electron Microscopy<br/>ByB. S. C. Leadbeater<br/>Abstract <br/><br/>Chapter 29|8 pages<br/>A Rapid Technique for the Taxonomy of Methanogenic Bacteria: Comparison of the Methylreductase Subunits<br/>ByPierre E. Bouvière, Carla H. Kuhner<br/>Abstract <br/><br/>Chapter 30|6 pages<br/>Extraction of DNA from Soils and Sediments<br/>ByRonald M. Atlas<br/>Abstract <br/><br/>Chapter 31|4 pages<br/>Detecting Gene Sequences Using the Polymerase Chain Reaction<br/>ByRonald M. Atlas<br/>Abstract <br/><br/>Chapter 32|14 pages<br/>Quantitative Description of Microbial Communities Using Lipid Analysis<br/>ByRobert H. Findlay, Fred C. Dobbs<br/>Abstract <br/><br/>Chapter 33|10 pages<br/>Single-Cell Identification Using Fluorescently Labeled, Ribosomal RNA-Specific Probes<br/>ByEdward F. DeLong<br/>Abstract <br/><br/>Chapter 34|6 pages<br/>Immunofluorescence Method for the Detection and Characterization of Marine Microbes<br/>ByLisa Campbell<br/>Abstract <br/>Section III|94 pages<br/>Biomass<br/><br/>Chapter 35|5 pages<br/>Section BiomassThe Relationship Between Biomass and Volume of Bacteria<br/>BySvein Norland<br/>Abstract <br/><br/>Chapter 36|9 pages<br/>Microscope Methods for Measuring Bacterial Biovolume: Epifluorescence Microscopy, Scanning Electron Microscopy, and Transmission Electron Microscopy<br/>ByGunnar Bratbak<br/>Abstract <br/><br/>Chapter 37|7 pages<br/>Measurement of Carbon and Nitrogen Biomass and Biovolume from Naturally Derived Marine Bacterioplankton<br/>BySangHoon Lee<br/>Abstract <br/><br/>Chapter 38|12 pages<br/>Use of Color Image Analysis and Epifluorescence Microscopy to Measure Plankton Biomass<br/>ByPeter G. Verity, Michael E. Sieracki<br/>Abstract <br/><br/>Chapter 39|7 pages<br/>Determination of Size and Morphology of Aquatic Bacteria by Automated Image Analysis<br/>ByRoland Psenner<br/>Abstract <br/><br/>Chapter 40|12 pages<br/>Analysis of Microbial Lipids to Determine Biomass and Detect the Response of Sedimentary Microorganisms to Disturbance<br/>ByFred C. Dobbs, Robert H. Findlay<br/>Abstract <br/><br/>Chapter 41|10 pages<br/>Total Microbial Biomass Estimation Derived from the Measurement of Particulate Adenosine-5‘-Triphosphate<br/>ByDavid M. Karl<br/>Abstract <br/><br/>Chapter 42|8 pages<br/>Microphytobenthic Biomass Measurement Using HPLC and Conventional Pigment Analysis<br/>ByCatherine Riaux-Gobin, Bert Klein<br/>Abstract <br/><br/>Chapter 43|9 pages<br/>Microphotometric Analysis of the Spectral Absorption and Fluorescence of Individual Phytoplankton Cells and Detrital Matter<br/>ByRodolfo Iturriaga, Susan L. Bower<br/>Abstract <br/><br/>Chapter 44|8 pages<br/>Measurement of Elemental Content and Dry Weight of Single Cells: X-Ray Microanalysis<br/>ByMikal Heldal<br/>Abstract <br/>Section IV|192 pages<br/>Activity, Respiration, and Growth<br/><br/>Chapter 45|8 pages<br/>Microautoradiographic Detection of Microbial Activity<br/>ByKevin R. Carman<br/>Abstract <br/><br/>Chapter 46|10 pages<br/>14C Tracer Method for Measuring Microbial Activity in Deep-Sea Sediments<br/>ByJody W. Deming<br/>Abstract <br/><br/>Chapter 47|8 pages<br/>Evaluating Bacterial Activity from Cell-Specific Ribosomal RNA Content Measured with Oligonucleotide Probes<br/>ByP. F. Kemp, S. Lee, J. LaRoche<br/>Abstract <br/><br/>Chapter 48|9 pages<br/>Use of Fluorogenic Model Substrates for Extracellular Enzyme Activity (EEA) Measurement of Bacteria<br/>ByHans-Georg Hoppe<br/>Abstract <br/><br/>Chapter 49|8 pages<br/>Photoassimilation of Acetate by Algae<br/>ByRussell L. Cuhel<br/>Abstract <br/><br/>Chapter 50|5 pages<br/>Starvation-Survival Strategies in Bacteria<br/>ByRichard Y. Morlta<br/>Abstract <br/><br/>Chapter 51|7 pages<br/>Community Respiration IVIeasurements Using a Pulsed O 2 Electrode<br/>ByChristopher Langdon<br/>Abstract <br/><br/>Chapter 52|9 pages<br/>Sediment Community Production and Respiration Measurements: The Use of Microelectrodes and Bell Jars<br/>ByP. A. G. Holman, S. A. de Jong<br/>Abstract <br/><br/>Chapter 53|5 pages<br/>Distinguishing Bacterial from Nonbacterial Decomposition of Spartina alterniflora by Respirometry<br/>ByDavid E. Padgett<br/>Abstract <br/><br/>Chapter 54|11 pages<br/>Microbial RNA and DNA Synthesis Derived from the Assimilation of [2, 3H]-Adenine<br/>ByDavid M. Karl<br/>Abstract <br/><br/>Chapter 55|12 pages<br/>Adenosine Triphosphate (ATP) and Total Adenine Nucleotide (TAN) Pool Turnover Rates as Measures of Energy Flux and Specific Growth Rate in Natural Populations of Microorganisms<br/>ByDavid M. Karl<br/>Abstract <br/><br/>Chapter 56|9 pages<br/>Estimating Production of Heterotrophic Bacterioplankton via Incorporation of Tritiated Thymidine<br/>ByRussell T. Bell<br/>Abstract <br/><br/>Chapter 57|3 pages<br/>Thymidine Incorporation into DNA as an Estimate of Sediment Bacterial Production<br/>ByStuart Findlay<br/>Abstract <br/><br/>Chapter 58|4 pages<br/>Leucine Incorporation as a Measure of Biomass Production by Heterotrophic Bacteria<br/>ByDavid L. Kirchman<br/>Abstract <br/><br/>Chapter 59|5 pages<br/>Estimating Conversion Factors for the Thymidine and Leucine Methods for Measuring Bacterial Production<br/>ByDavid L. Kirchman, Hugh W. Ducklow<br/>Abstract <br/><br/>Chapter 60|12 pages<br/>Bacterial Production in Anaerobic Water Columns<br/>ByCarlos Pedrós-Alió, Josefina García-Cantizano, Juan I. Calderón<br/>Abstract <br/><br/>Chapter 61|6 pages<br/>Production of Heterotrophic Bacteria Inhabiting Marine Snow<br/>ByAlice L. Alldredge<br/>Abstract <br/><br/>Chapter 62|10 pages<br/>Bacterial Growth Rates Measured by Pulse Labeling<br/>ByPaul La Rock, Jung-Ho Hyun<br/>Abstract <br/><br/>Chapter 63|6 pages<br/>Utilization of Amino Acids and Precursors for Amino Acid De Novo Synthesis by Planktonic Bacteria<br/>ByMeinhard Simon<br/>Abstract <br/><br/>Chapter 64|4 pages<br/>Dialysis Bag Incubation as a Nonradiolabeling Technique to Estimate Bacterioplankton Production In Situ<br/>ByGerhard J. Herndl, Elisabeth Kaltenböck, Gerald Müller-Niklas<br/>Abstract <br/><br/>Chapter 65|6 pages<br/>Growth Rates of Natural Populations of Heterotrophic Nanoplankton<br/>ByGeorge B. McManus<br/>Abstract <br/><br/>Chapter 66|10 pages<br/>The Labeled Chlorophyll a Technique for Determining Photoautotrophic Carbon Specific Growth Rates and Carbon Biomass<br/>ByDonald G. Redalje<br/>Abstract <br/><br/>Chapter 67|6 pages<br/>Incorporation of 14CO2 into Protein as an Estimate of Phytoplankton N-Assimilation and Relative Growth Rate<br/>ByGiacomo R. DiTullio<br/>Abstract <br/><br/>Chapter 68|8 pages<br/>Membrane-Containing Fungal Mass and Fungal Specific Growth Rate in Natural Samples<br/>BySteven Y. Newell<br/>Abstract <br/>Section V|74 pages<br/>Organic Matter Decomposition and Nutrient Regeneration<br/><br/>Chapter 69|7 pages<br/>Radiotracer Approaches for the Study of Plant Polymer Biodegradation<br/>ByRonald Benner<br/>Abstract <br/><br/>Chapter 70|4 pages<br/>Estimating Degradation Rates of Chitin inAquatic Samples<br/>ByMichael T. Montgomery, David L. Kirchman<br/>Abstract <br/><br/>Chapter 71|10 pages<br/>Measurement of Dimethylsulfide (DMS) and Dimethylsulfoniopropionate (DMSP) in Seawater and Estimation of DMS Turnover Rates<br/>ByRonald P. Kiene<br/>Abstract <br/><br/>Chapter 72|9 pages<br/>Sulfate Assimilation by Aquatic Microorganisms<br/>ByRussell L. Cuhel<br/>Abstract <br/><br/>Chapter 73|11 pages<br/>Determination of Nitrogenase Activity in Aquatic Samples Using the Acetylene Reduction Procedure<br/>ByDouglas G. Capone<br/>Abstract <br/><br/>Chapter 74|9 pages<br/>Denitrification and Nitrification Rates in Aquatic Sediments<br/>BySybil P. Seitzinger<br/>Abstract <br/><br/>Chapter 75|6 pages<br/>Turnover of 15NH4 + Tracer in Sediments<br/>ByT. H. Blackburn<br/>Abstract <br/><br/>Chapter 76|12 pages<br/>Microbial Cycling of Inorganic and Organic Phosphorus in the Water Column<br/>ByJames W. Ammerman<br/>Abstract <br/>Section VI|93 pages<br/>Food Webs and Trophic Interactions<br/><br/>Chapter 77|13 pages<br/>Approaches for Measuring Stable Carbon and Nitrogen Isotopes in Bacteria<br/>ByRichard B. Coffin, Luis A. Cifuentes<br/>Abstract <br/><br/>Chapter 78|8 pages<br/>Bacterial Sinking Losses<br/>ByCarlos Pedrós-Alió, Jordi Mas<br/>Abstract <br/><br/>Chapter 79|10 pages<br/>Methods for the Observation and Use in Feeding Experiments of Microbial Exopolymers<br/>ByAlan W. Decho<br/>Abstract <br/><br/>Chapter 80|7 pages<br/>Protistan Grazing Rates via Uptake of Fluorescently Labeied Prey<br/>ByEvelyn B. Sherr, Barry F. Sherr<br/>Abstract <br/><br/>Chapter 81|12 pages<br/>Grazing Rate of Bacterioplankton via Turnover of Genetically Marked Minicells<br/>ByJohao Wikner<br/>Abstract <br/><br/>Chapter 82|8 pages<br/>Estimating Rates of Growth and Grazing Mortality of Phytoplanlcton by the Dilution Method<br/>ByMichael R. Landry<br/>Abstract <br/><br/>Chapter 83|7 pages<br/>Consumption of Protozoa by Copepods Feeding on Natural Microplankton Assemblages<br/>ByDian J. Gifford<br/>Abstract <br/><br/>Chapter 84|7 pages<br/>Predation on Planktonic Protists Assessed by Immunochemical Assays<br/>ByMark D. Ohman<br/>Abstract <br/><br/>Chapter 85|6 pages<br/>Absorption of Microbes by Benthic Macrofauna by the 14C:51Cr Dual-Labeling Method<br/>ByGlenn Lopez<br/>Abstract <br/><br/>Chapter 86|9 pages<br/>Radioisotope Technique to Quantify In Situ Microbivory by Meiofauna in Sediments<br/>ByPaul A. Montagna<br/>Abstract <br/><br/>Includes bibliographical references and index. |
| 520 ## - SUMMARY, ETC. |
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| Summary, etc. |
"Worldwide destinations casebook provides 36 comprehensive case studies of international tourism destinations. A companion text to the core textbook Worldwide destinations, 4th ed., these cases contextualize the learning and provide real life illustrationsof the theories covered" -- Cover, p. 4. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name entry element |
Tourism. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name entry element |
Travel. |
| 856 41 - ELECTRONIC LOCATION AND ACCESS |
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| Materials specified |
Table of contents only |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/enhancements/fy0627/2005299759-t.html">http://www.loc.gov/catdir/enhancements/fy0627/2005299759-t.html</a> |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
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| Source of classification or shelving scheme |
Dewey Decimal Classification |
| Koha item type |
Book Closed Access |
| Classification part |
576.192 |
| Item part |
AQU |
| Call number prefix |
AQU |
| Call number suffix |
AQU |
