about
The efficacy and mechanisms of fungal suppression of freshwater harmful algal bloom species.Proteomic analysis reveals large amounts of decomposition enzymes and major metabolic pathways involved in algicidal process of Trametes versicolor F21a.Different degrees of plant invasion significantly affect the richness of the soil fungal community.The allelopathic effects of invasive plant Solidago canadensis on seed germination and growth of Lactuca sativa enhanced by different types of acid deposition.Effect of simulated acid rain on the litter decomposition of Quercus acutissima and Pinus massoniana in forest soil microcosms and the relationship with soil enzyme activities.Responses of the soil fungal communities to the co-invasion of two invasive species with different cover classes.N deposition affects allelopathic potential of Amaranthus retroflexus with different distribution regions.Floristic characteristics of alien invasive seed plant species in China.Responses of soil N-fixing bacteria communities to invasive plant species under different types of simulated acid deposition.Solidago canadensis invasion affects soil N-fixing bacterial communities in heterogeneous landscapes in urban ecosystems in East China.Differences in functional traits between invasive and native Amaranthus species under different forms of N deposition.Responses of soil N-fixing bacteria communities to invasive species over a gradient of simulated nitrogen depositionDifferences in Leaf Functional Traits BetweenRhus typhinaand Native SpeciesResponses of soil N-fixing bacterial communities to redroot pigweed (Amaranthus retroflexus L.) invasion under Cu and Cd heavy metal soil pollutionSilver nanoparticles with different particle sizes enhance the allelopathic effects of Canada goldenrod on the seed germination and seedling development of lettuceEffects of Different Types of Heavy Metal Pollution on Functional Traits of Invasive Redroot Pigweed and Native Red AmaranthDifferences in functional traits between invasive and native Amaranthus species under simulated acid deposition with a gradient of pH levelsModerate and heavy Solidago canadensis L. invasion are associated with decreased taxonomic diversity but increased functional diversity of plant communities in East ChinaReproductive Allocation Strategy of Two Herbaceous Invasive Plants Across Different Cover ClassesAllelopathic suppression by Conyza canadensis depends on the interaction between latitude and the degree of the plant’s invasionFunctional Traits and Reproductive Allocation Strategy of Conyza canadensis as they Vary by Invasion Degree Along a Latitude GradientNitrogen Deposition Influences the Allelopathic Effect of an Invasive Plant on the Reproduction of a Native Plant: Solidago canadensis versus Pterocypsela laciniataResponses of soil N-fixing bacteria communities to Amaranthus retroflexus invasion under different forms of N depositionInsights into the Effects of Simulated Nitrogen Deposition on Leaf Functional Traits of Rhus TyphinaInsights into Ecological Effects of Invasive Plants on Soil Nitrogen CyclesEffects of sulfuric, nitric, and mixed acid rain on litter decomposition, soil microbial biomass, and enzyme activities in subtropical forests of ChinaEffects of nitrogen addition on litter decomposition, soil microbial biomass, and enzyme activities between leguminous and non-leguminous forestsResponses of soil microbial biomass and enzymatic activities to different forms of organic nitrogen deposition in the subtropical forests in East ChinaThe possibility of using cyanobacterial bloom materials as a medium for white rot fungiIsolation and evaluation of terrestrial fungi with algicidal ability from Zijin Mountain, Nanjing, ChinaMixed Inorganic and Organic Nitrogen Addition Enhanced Extracellular Enzymatic Activities in a Subtropical Forest Soil in East ChinaResponse of litter decomposition and related soil enzyme activities to different forms of nitrogen fertilization in a subtropical forestResponses of soil microbial biomass and enzymatic activities to fertilizations of mixed inorganic and organic nitrogen at a subtropical forest in East ChinaResponse of degradative enzymes to N fertilization during litter decomposition in a subtropical forest through a microcosm experimentCanada goldenrod invasion affect taxonomic and functional diversity of plant communities in heterogeneous landscapes in urban ecosystems in East ChinaEcotoxicological effects of metals with different concentrations and types on the morphological and physiological performance of wheatAllelopathic effects of Canada goldenrod leaf extracts on the seed germination and seedling growth of lettuce reinforced under salt stressThe invasive tree staghorn sumac affects soil N2 -fixing bacterial communities in north ChinaSilver nanoparticles reduced the invasiveness of redroot pigweedLitter decomposition process dramatically declines the allelopathy of Solidago canadensis L. on the seed germination and seedling growth of Lactuca sativa L
P50
Q33646409-35F61A10-D4C8-4B2C-AA09-E24412C70DD7Q33818969-1874A1D6-B292-4ECE-9D4F-063A88F691E0Q35083153-046C00EE-A4A3-4CAB-B3EB-7C082985E876Q35908777-0CA64A12-BECC-45DB-AD92-39934DF18A24Q43103817-31D9EE17-9F96-4B79-A1A0-56919E0040BEQ46286015-F800CB04-AD55-428A-AAA1-97DB4E2362EBQ46346172-DBA548A9-D476-49E9-B3AE-1E128A34DF71Q46452820-5A0C8136-2738-47A9-8AE7-D6FD96FC65D9Q50718432-8101D35E-F56B-4359-A238-B68F93DE0C86Q51147190-74390C27-3286-4995-A04E-10DED950232BQ51152146-C4BD5418-A69D-403C-83E4-89A3647FD7BBQ56366464-53F3EDF0-7220-440A-AA3D-3CB7F3018415Q56379236-57836457-014D-4CFB-BBBA-22DD61B26DE4Q57001309-448AF1B0-3AD3-40F3-8715-AFD7B7EF91BAQ57001317-00DD4749-3790-4B71-AD71-11F44AD42F42Q57001320-EFD2C648-66ED-42D9-98C4-4DF9DD3FAC6AQ57001325-FCF34A01-8EF3-450E-A7EE-B724C8028192Q57001334-44A7E4E7-66E8-4EA0-A73F-EA95CD024259Q57001344-541B3A5B-75FC-4076-9D81-FBB7189332CDQ57001348-8D9E0B72-7673-4EB4-ADDB-637D8F17AF47Q57001359-DFD4EBB1-C9A9-4353-8835-58DFC1700511Q57001363-C239A598-97C1-472D-BF8C-A06C3F1E3F5BQ57001365-52A2FABD-6BAD-4362-A381-EF233A4B7F7CQ57001371-F44C68A7-C176-42BF-BF39-49D3DCA867A2Q57001374-ABF04A4A-056D-4824-81F9-AAFC01022CB1Q57001381-0AAFA1E9-BE69-4E78-817E-A270C1CBCFF2Q57001384-CE872B22-C437-456C-9516-266975585B80Q57001393-3DD7EE32-E5CC-4826-8165-33245E79128BQ57001404-4F39D11D-691E-45F6-959E-0A0EEE12560DQ57001406-735A2BED-13D3-4AD0-BE16-FC0FFCA275FAQ57001409-74C7123F-800D-4E91-9F60-C28441C75BE9Q57001412-D1C0BB72-1672-4335-A4B4-835A8BB6777EQ57001414-4D1988B3-C8C2-4084-AD26-A2078B2B3EF5Q57001421-79ADDAB7-1A3A-44C8-99AD-E8909F0D4060Q60470595-97C32C9F-678F-4D1F-A1EE-ACDE81E4ED5BQ60470602-366A58EA-276E-493B-9428-D8D9E1C23863Q60470607-6EA2A2D9-8E50-457A-A2CC-0FD63C2C0E52Q91723766-915777CF-3AB9-4995-9120-4943E91362BAQ92763623-C0E13882-733F-4FC3-94FD-A15432A8C43EQ95328083-9DD4CBDC-E7A1-4E1A-A6D8-398D7F90FF89
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Congyan Wang
@ast
Congyan Wang
@en
Congyan Wang
@es
Congyan Wang
@nl
Congyan Wang
@sl
type
label
Congyan Wang
@ast
Congyan Wang
@en
Congyan Wang
@es
Congyan Wang
@nl
Congyan Wang
@sl
prefLabel
Congyan Wang
@ast
Congyan Wang
@en
Congyan Wang
@es
Congyan Wang
@nl
Congyan Wang
@sl
P106
P1153
36495963300
P31
P496
0000-0002-6132-3319