Closely related protist strains have different grazing impacts on natural bacterial communities.
about
Protistan community analysis: key findings of a large-scale molecular sampling.Local diversity of heathland Cercozoa explored by in-depth sequencingEnrichment of omnivorous cercozoan nanoflagellates from coastal Baltic Sea waters.Diversity of protists and bacteria determines predation performance and stability.A resurgence in field research is essential to better understand the diversity, ecology, and evolution of microbial eukaryotes.Experimental evidence for strong stabilizing forces at high functional diversity of aquatic microbial communities.Selective elimination of bacterial faecal indicators in the Schmutzdecke of slow sand filtration columns.Differences in soil micro-eukaryotic communities over soil pH gradients are strongly driven by parasites and saprotrophs.Deconstructing the relationships between phylogenetic diversity and ecology: a case study on ecosystem functioning.Grazing of leaf-associated Cercomonads (Protists: Rhizaria: Cercozoa) structures bacterial community composition and function.Ecological and evolutive implications of bacterial defences against predators.Some Mixotrophic Flagellate Species Selectively Graze on Archaea.Protistan diversity in a permanently stratified meromictic lake (Lake Alatsee, SW Germany).Protists are an integral part of the Arabidopsis thaliana microbiome.Effects of fullerene (C60), multi-wall carbon nanotubes (MWCNT), single wall carbon nanotubes (SWCNT) and hydroxyl and carboxyl modified single wall carbon nanotubes on riverine microbial communities.Pack hunting by a common soil amoeba on nematodes.The prey's scent - Volatile organic compound mediated interactions between soil bacteria and their protist predators.Microbial Volatiles: Small Molecules with an Important Role in Intra- and Inter-Kingdom Interactions.Protist species richness and soil microbiome complexity increase towards climax vegetation in the Brazilian Cerrado
P2860
Q27321902-A8534056-D8E2-4858-8F47-1459008B8AF8Q28829509-0B40C533-023E-4051-8194-3410DF94B5EDQ34037755-8BA34F73-6FF2-4D91-A7C8-7F7C680D1A1CQ34772007-F8361777-15C3-491A-B4C1-012E1C0A003FQ35064421-2957393C-3610-49A5-B602-AF1F27C5892AQ35734537-EE316345-7228-4710-9A96-1290088B914EQ35743013-D12D5CC7-2345-4955-8509-2C15E9754855Q35894516-666BCD4B-3536-4D72-BFC8-3A6A2CB975CDQ36196339-F6A314B1-5B79-4C42-A599-ED054DA6E42DQ36406493-A54AAAC7-93D1-43A3-A2A8-115F6B8F9F8AQ37951098-9D45E6A9-A8EC-48BF-82DC-C329B03447D6Q38798443-20CF5284-8BA1-4AC1-B653-A76F03D5C0E0Q39110418-CF18186C-902B-4296-9890-EF84F94B254FQ46297402-7EDD4980-1734-4229-9F1C-E8113E267E16Q46597371-242B1C84-2496-4A7B-A923-A2463362B91CQ46714315-17179445-CFB4-4901-88C9-51DE8822508AQ48183260-7B98AB43-8463-4ED4-BDCA-8F29D60854F7Q49729730-13A2DA9A-6CE2-4F78-8564-56E75E6C8717Q57117386-89D89F0F-214C-4F88-9268-613AA9A407D6
P2860
Closely related protist strains have different grazing impacts on natural bacterial communities.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Closely related protist strain ...... natural bacterial communities.
@en
Closely related protist strain ...... natural bacterial communities.
@nl
type
label
Closely related protist strain ...... natural bacterial communities.
@en
Closely related protist strain ...... natural bacterial communities.
@nl
prefLabel
Closely related protist strain ...... natural bacterial communities.
@en
Closely related protist strain ...... natural bacterial communities.
@nl
P50
P1476
Closely related protist strain ...... natural bacterial communities
@en
P2093
David Bass
P2860
P304
P356
10.1111/J.1462-2920.2010.02283.X
P577
2010-12-01T00:00:00Z