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Waterbird population changes in the wetlands at Chongming Dongtan in the Yangtze River estuary, China.Comparison of bacterial and fungal communities between natural and planted pine forests in subtropical China.Specific interaction between the classical swine fever virus NS5B protein and the viral genome.Seasonal, spatial, and interspecific variation in quercetin in Apocynum venetum and Poacynum hendersonii, Chinese traditional herbal teas.CH4 and N2O emissions from Spartina alterniflora and Phragmites australis in experimental mesocosms.Altered ecosystem carbon and nitrogen cycles by plant invasion: a meta-analysis.Litter pool sizes, decomposition, and nitrogen dynamics in Spartina alterniflora-invaded and native coastal marshlands of the Yangtze Estuary.Species delimitation and historical biogeography in the genus Helice (Brachyura: Varunidae) in the northwestern Pacific.The interactive effects of petroleum-hydrocarbon spillage and plant rhizosphere on concentrations and distribution of heavy metals in sediments in the Yellow River Delta, China.Cryptic species and historical biogeography of eel gobies (Gobioidei: Odontamblyopus) along the northwestern Pacific coast.Do plants modulate biomass allocation in response to petroleum pollution?Ecosystem carbon stock influenced by plantation practice: implications for planting forests as a measure of climate change mitigation.Genome-wide DNA methylation alterations of Alternanthera philoxeroides in natural and manipulated habitats: implications for epigenetic regulation of rapid responses to environmental fluctuation and phenotypic variation.Plants' use of different nitrogen forms in response to crude oil contamination.Responses of ecosystem nitrogen cycle to nitrogen addition: a meta-analysis.Spartina alterniflora invasion increases soil inorganic nitrogen pools through interactions with tidal subsidies in the Yangtze Estuary, China.Understanding plant-microbe interactions for phytoremediation of petroleum-polluted soil.Tolerance to high temperature extremes in an invasive lace bug, Corythucha ciliata (Hemiptera: Tingidae), in subtropical China.Crabs mediate interactions between native and invasive salt marsh plants: a mesocosm studyAn imperative need for global change research in tropical forests.Spatial genetic structure in natural populations of Phragmites australis in a mosaic of saline habitats in the Yellow River Delta, China.Effect of NS3 and NS5B proteins on classical swine fever virus internal ribosome entry site-mediated translation and its host cellular translation.Mutational analysis of the GDD sequence motif of classical swine fever virus RNA-dependent RNA polymerases.Influence of a 12-nt insertion present in the 3' untranslated region of classical swine fever virus HCLV strain genome on RNA synthesis.Methyl coenzyme M reductase A (mcrA) gene-based investigation of methanogens in the mudflat sediments of Yangtze River estuary, China.Rapid cold hardening increases cold and chilling tolerances more than acclimation in the adults of the sycamore lace bug, Corythucha ciliata (Say) (Hemiptera: Tingidae).Increasing plant diversity with border crops reduces insecticide use and increases crop yield in urban agriculture.Plant–soil biota interactions of an invasive species in its native and introduced ranges: Implications for invasion successHabitat heterogeneity influences restoration efficacy: Implications of a habitat-specific management regime for an invaded marshFor or against: the importance of variation in growth rate for testing the EICA hypothesisDifferentiation in growth and biomass allocation among three native Alternanthera philoxeroides varieties from ArgentinaHow tidal regime and treatment timing influence the clipping frequency for controlling invasive Spartina alterniflora: implications for reducing management costsSeasonal variation in CH4 emission and its 13C-isotopic signature from Spartina alterniflora and Scirpus mariqueter soils in an estuarine wetlandEffects of salt marsh invasion by Spartina alterniflora on sulfate-reducing bacteria in the Yangtze River estuary, ChinaClipping at early florescence is more efficient for controlling the invasive plant Spartina alternifloraDesigning an effective clipping regime for controlling the invasive plant Spartina alterniflora in an estuarine salt marshSpartina alterniflora invasions in the Yangtze River estuary, China: An overview of current status and ecosystem effectsEffects of saltmarsh invasion by Spartina alterniflora on arthropod community structure and dietsAllometric growth, disturbance regime, and dilemmas of controlling invasive plants: a model analysisEcophysiological characteristics of invasive Spartina alterniflora and native species in salt marshes of Yangtze River estuary, China
P50
Q30857047-2800883A-AA3B-454C-96AD-C60EE5059411Q31033963-E66552E0-BC35-49DC-8EDC-6CC393C228C6Q31112910-7B0DEF81-49C1-4F21-8619-D3C7B6867EE4Q31137025-9D4ACBD2-D203-4C14-B41A-2F318093FEA2Q33275059-215C56B8-7862-41D9-94D5-59BD3787F048Q33307445-B2C7ACFF-06E6-4505-B387-B356B84A4D16Q33323052-B5DBAF13-B439-4C16-8CFE-9D74984644F3Q33491741-CA1433D0-E090-4787-B416-859A34DA4F17Q33509710-5BB9CD92-F9EC-4F32-A5D4-A4E2035E2360Q33523128-77B7D93E-6E34-49B6-9267-AB01D446CB4AQ33581805-CB0C59F1-A080-46E5-B014-325155A8784CQ33594315-020C7CB5-7672-4360-A98F-05D12F6C6480Q33594315-6BA3EED3-C57F-401A-87B0-8778046689EEQ33603502-5A85E5F2-D690-4083-B94C-D5B3F4DA348EQ33720261-D0D07A36-E56D-4E58-BE72-11C47E3CC278Q33765117-DC1B1102-CAFD-4366-87A1-3CB37295BA0FQ33785005-14E9C6DA-9490-4763-9E5E-F18FB679963DQ33855605-19608B4F-2372-421F-BAF4-8D3E730DDD5EQ34568318-DDB8F390-3139-458A-9C74-CA57FA7CA393Q34984626-0D5601A5-758F-4359-86D2-0EC8D703CAB8Q35017800-D14EE281-A551-4F23-905F-0C215C86F97EQ36169792-E60C5A24-A18C-486B-A0F1-8FBE979D6E18Q40001970-C24E939B-D5EF-441E-9584-82D131E869C6Q40472031-2CAD13BC-48B5-47C7-87ED-3565529A9A25Q40535953-BE458A6C-8EDA-400F-8EC7-3B92B17BEDE9Q44456670-3924BED6-7987-453A-BDD2-6338DBC5C0B4Q52726623-6EE720F7-980A-4AFA-9C3D-F6B94F7A6023Q54302443-0309858A-8515-45CD-9045-DD19F26825A9Q56480667-6D0C94B3-4590-4EFA-B5FC-94B1193E768DQ56490430-6C4E47FE-6AA3-4299-BD52-655C10BD179BQ56604484-EF5D9EAB-85CC-4DA7-95F7-F92CE6577FFEQ56767979-61471D85-BD66-4D09-9F26-68E2CB568C96Q56768347-EA1B7A7D-CD27-4DAD-96BB-5DBFEDDCDB8EQ56768834-36CB3C8F-4A77-463D-A2FF-A63CF948FF33Q56769814-1F51FBE6-BCEB-4303-A82C-72BE184E7D10Q56770553-2DF5EBB7-D35B-44B6-B0D7-ACA30B83CB28Q56771641-151EA2CA-6CA0-4910-ADB3-7C59581DA590Q56771859-D16F8792-3D5E-4D90-A4B4-B27EF4E2DF0EQ56772068-1EDA57A1-0298-4BF3-BF98-7A9559452993Q56772091-882B660A-3EB2-4A31-A645-F5AF9FAB469E
P50
description
ecologist
@en
onderzoeker
@nl
name
Bo Li
@ast
Bo Li
@en
Bo Li
@es
Bo Li
@sl
type
label
Bo Li
@ast
Bo Li
@en
Bo Li
@es
Bo Li
@sl
prefLabel
Bo Li
@ast
Bo Li
@en
Bo Li
@es
Bo Li
@sl
P1053
B-8016-2010
P106
P21
P31
P3829
P496
0000-0002-0439-5666
P569
2000-01-01T00:00:00Z