about
Investigation into the effect of high concentrations of volatile fatty acids in anaerobic digestion on methanogenic communitiesAdaptation of methanogenic communities to the cofermentation of cattle excreta and olive mill wastes at 37 degrees C and 55 degrees CDesign and development of the ANAEROCHIP microarray for investigation of methanogenic communities.Demand-driven energy supply from stored biowaste for biomethanisation.16S rDNA analysis reveals low microbial diversity in community level physiological profile assays.Molecular analysis of bacterial community succession during prolonged compost curing.Effect of biowaste sludge maturation on the diversity of thermophilic bacteria and archaea in an anaerobic reactor.Bacterial community composition of the gut microbiota of Cylindroiulus fulviceps (diplopoda) as revealed by molecular fingerprinting and cloning.Role of vermicompost chemical composition, microbial functional diversity, and fungal community structure in their microbial respiratory response to three pesticides.Budvicia diplopodorum sp. nov. and emended description of the genus Budvicia.Microbiological community analysis of vermicompost tea and its influence on the growth of vegetables and cereals.Effects of pH and microbial composition on odour in food waste composting.The dynamic bacterial communities of a melting High Arctic glacier snowpack.Biowaste: a Lactobacillus habitat and lactic acid fermentation substrate.Coffee husk composting: an investigation of the process using molecular and non-molecular tools.Finding a robust strain for biomethanation: anaerobic fungi (Neocallimastigomycota) from the Alpine ibex (Capra ibex) and their associated methanogens.A closed loop for municipal organic solid waste by lactic acid fermentation.Lactic acid fermentation within a cascading approach for biowaste treatment.Effects of digestate on soil chemical and microbiological properties: A comparative study with compost and vermicompost.Treatment alternatives of slaughterhouse wastes, and their effect on the inactivation of different pathogens: a reviewPopulation dynamics at digester overload conditions.Changes in the microbial communities during co-composting of digestatesLactic acid and methane: improved exploitation of biowaste potential.Methane yields and methanogenic community changes during co-fermentation of cattle slurry with empty fruit bunches of oil palm.Continuous-feeding vermicomposting as a recycling management method to revalue tomato-fruit wastes from greenhouse crops.Merging two waste streams, wood ash and biowaste, results in improved composting process and end products.Co-composting of biowaste and wood ash, influence on a microbially driven-process.Biogas digestates affect crop P uptake and soil microbial community composition.End-product inhibition and acidification limit biowaste fermentation efficiency.Identification of anammox bacteria in a full-scale deammonification plant making use of anaerobic ammonia oxidation.Archaeal community dynamics and abiotic characteristics in a mesophilic anaerobic co-digestion process treating fruit and vegetable processing waste sludge with chopped fresh artichoke waste.Biotic and abiotic processes contribute to successful anaerobic degradation of cyanide by UASB reactor biomass treating brewery waste water.Wood ash amendment to biogas reactors as an alternative to landfilling? A preliminary study on changes in process chemistry and biology.Use of DGGE and COMPOCHIP for investigating bacterial communities of various vermicomposts produced from different wastes under dissimilar conditions.Burning fire-prone Mediterranean shrublands: immediate changes in soil microbial community structure and ecosystem functions.Design and testing of real-time PCR primers for the quantification of Methanoculleus, Methanosarcina, Methanothermobacter, and a group of uncultured methanogens.Application of COMPOCHIP microarray to investigate the bacterial communities of different composts.Application of denaturing gradient gel electrophoresis for analysing the gut microflora of Lumbricus rubellus Hoffmeister under different feeding conditions.Comparison of different labeling methods for the production of labeled target DNA for microarray hybridization.Bacterial community patterns and thermal analyses of composts of various origins
P50
Q28652367-25C975AE-CA20-4840-A3BF-A9C25DD59D62Q28748984-43FD798B-1717-402F-9363-3D293F2C3B3CQ30875123-D1E16578-C195-4307-8503-0AA27CF9CC9BQ30981387-7BB98C30-7BD3-4BFE-8574-C300CADDC587Q33318731-25EE55E0-3E73-4417-9012-70B12B9A28B4Q33341144-CB10A7EA-CBD2-42FF-9F88-CD5E5A58DDA5Q33409350-DF1407D3-1DEF-4870-BD94-EDEEA04C1317Q33717124-0470327D-B7E8-40F2-9CA1-C97547F2FFAEQ34002124-3B3435EA-0888-4AF2-9E98-FA83FA2D4578Q34191050-6A24752F-5A0E-4EF0-94DA-6B3543CA8B29Q34308904-D9B23705-5049-4715-9F3A-621DEB285DEEQ34465960-19980101-D98C-45BC-930B-C9D292821C6AQ34647064-72127310-6FA6-4D2A-BD5B-25397BB3D553Q34788665-3C449E47-28E5-4290-B813-29FD55DB3A94Q35076278-2E279D9D-1C14-4371-8939-C02ADD737B7CQ35079632-76750CF7-A8C8-416E-B903-F5C21840FB14Q35473975-E05168AB-59C8-4929-8EB1-94549D98446DQ35555381-33469BBF-0579-433B-A71C-EC97745FCFFEQ35811443-AB3B5D27-69E5-4562-9190-3AB5CB3E0F42Q36754575-C84A6D58-58BD-4D5E-ABB8-6EEEE82BA3E2Q38435787-35B473C9-47A6-4F73-B25B-6DED248218A6Q38556285-7E5D8AA1-44BD-43C8-91B2-8E047CABCA5BQ41742035-B1BB1B13-2599-47E1-9B27-DF4ADA0DDE54Q41751069-2C764A47-D9C3-4A2B-A2E7-AED804115B07Q43319515-88543175-C791-4D80-A901-C5DD414F5F2FQ43327636-B1AB6334-E3B4-4AA0-AFF3-5AEDE30B28F9Q43338844-2274159F-3145-4438-8420-C2AFA54E965AQ43339090-E6E50903-208D-46A4-83B6-A00D77039005Q43339389-022DD6A9-7D6E-46E1-A2DF-64912D9F7803Q43346056-5E86B8F9-75F4-4C94-A4F0-CC406E1479F0Q43356918-0DA0D6F4-BB18-46AD-A2F1-EC73821A1F23Q43359295-3B51CC84-94F0-462F-AB93-7EE49438118AQ43360793-369B708A-072A-40DE-9B81-BFC852B2EE7FQ46362581-FD51C78E-C57A-409F-90E8-CAC527199D79Q47782874-F49F4FB9-3FE0-4BE0-A20A-4BAE52038F80Q50592395-A4B99E41-64A7-4EEE-BEF2-1AD554A1B41CQ50619766-89467042-5248-4C38-B113-146BCD28B2C7Q54535302-00399CEC-7953-48FB-8FF5-9D31DA35AEBDQ54651955-2AF0AF54-11EE-4653-85E2-4E9E17550FF7Q57231360-630F6E7E-302E-4F42-BFE5-A6946AA8869C
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Heribert Insam
@ast
Heribert Insam
@en
Heribert Insam
@es
Heribert Insam
@nl
Heribert Insam
@sl
type
label
Heribert Insam
@ast
Heribert Insam
@en
Heribert Insam
@es
Heribert Insam
@nl
Heribert Insam
@sl
prefLabel
Heribert Insam
@ast
Heribert Insam
@en
Heribert Insam
@es
Heribert Insam
@nl
Heribert Insam
@sl
P106
P1153
7003813836
P21
P31
P496
0000-0002-5136-2752