01144nam 2200373Ia 450 991069799030332120090105102608.0(CKB)5470000002393086(OCoLC)297114237(EXLCZ)99547000000239308620090105d2008 ua 0engurmn|||||||||txtrdacontentcrdamediacrrdacarrierChoosing a credit card[electronic resource][Washington, D.C.] :Federal Reserve Board,[2008]1 electronic text HTML fileTitle from title screen (viewed on Dec. 16, 2008)."Last update: September 25, 2008."Credit cardsUnited StatesCredit cardsEvaluationCredit card feesCredit cardsCredit cardsEvaluation.Credit card fees.Board of Governors of the Federal Reserve System (U.S.)GPOGPOBOOK9910697990303321Choosing a credit card3113769UNINA04111nam 2201081z- 450 991055734940332120231214132944.0(CKB)5400000000042396(oapen)https://directory.doabooks.org/handle/20.500.12854/77074(EXLCZ)99540000000004239620202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEnvironmental Factors Shaping the Soil MicrobiomeBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (156 p.)3-0365-2510-6 3-0365-2511-4 This book emphasizes that soil productivity is considered an important factor for the success of agricultural production. The microbial community’s composition and the diversity of agricultural soils primarily depend on management practices. Exogenous nutritional inputs are inevitable processes in crop production, which can change the structure of soil bacterial communities. The combined application of compost and inorganic fertilizers might be a good way to keep up with agricultural productivity while maintaining the environmental balance. Bacterial communities are also known to differ according to the plant genotypes and hosts. Plant genotypic differences do not always lead to significant differences in microbiomes in the rhizosphere. It was concluded that imaginative research should address the simulation of the soil microenvironment, so as to understand the factors that regulate microbial activities in micro-niches.Research & information: generalbicsschalophytearbuscular mycorrhizal fungiplant growth promoting rhizobacteriamorphological characteristicsphotosynthesissoil enzymesmicrobial interactionsrhizosphereDNAproteinsmicrobial diversitymicrobial activityacidic soil improvementlimingmicrobial communityplant residue incorporationsoil enzyme activitysubtropical orchard soilphosphorus-enriched rhizosphere soilsphosphatephytoremediationbacterial communitieshigh-throughput sequencingOrchidaceaesoilbacteriafungimicrobiomeheavy metalNGSazo dyetextilewastewaterdiversityxenobioticspollutantNitrogen depositionsoil biodiversityurban16S rRNAwild-simulated ginsengPanax ginseng C.A. Meyersoil bacterial communitysoil propertycorrelation analysisagricultural practicescultivargraftinginteraction rootstock scionplant performancerhizosphere bacteriataxonomic indicatorsviticulturelong-term fertilizationnext-generation sequencingbacterial diversityplant growthsoil microbial communityenvironmental factorssoil contaminationculture-independent analysisResearch & information: generalSa Tongminedt1290182Anandham RangasamyedtSa TongminothAnandham RangasamyothBOOK9910557349403321Environmental Factors Shaping the Soil Microbiome3021397UNINA01638oam 2200553z 450 991076552160332120241204163119.09782364415027978236441393110.4000/books.eud.705(PPN)273871064(CKB)5600000000768159(EXLCZ)99560000000076815920231205d2021uuuu my- 0fretxtrdacontentcrdamediacrrdacarrierItinéraires d’hommes, trajectoires d’objets Mélanges offerts à Daniele VitaliDijon :Éditions universitaires de Dijon,2021©20211 online resource (466 pages) illustrations ;digital file (PDF)Histoires.2-36441-393-1 Histoires.Celtic antiquitiesProtohistoryIron ageFranceSocial sciencesfast(OCoLC)fst01122877Humanitiesfast(OCoLC)fst00963588ArchaeologyfastFranceAntiquitiesFrancefastCeltic antiquitiesProtohistoryIron ageSocial sciences.HumanitiesArchaeologyVitali DanieleEsposito AriannaDelferrière NicolasFochesato AndreaMiAaPQNZ-WeVULBOOK9910765521603321Itinéraires d’hommes, trajectoires d’objets4023651UNINA