Ecological resistance, seed density and their interactions determine patterns of invasion in a California coastal grassland.
about
The role of propagule pressure, genetic diversity and microsite availability for Senecio vernalis invasion.Biotic context and soil properties modulate native plant responses to enhanced rainfall.Insects mediate the effects of propagule supply and resource availability on a plant invasion.Native plant diversity resists invasion at both low and high resource levels.Effects of vegetative propagule pressure on the establishment of an introduced clonal plant, Hydrocotyle vulgaris.Linking macroecology and community ecology: refining predictions of species distributions using biotic interaction networks.The importance of quantifying propagule pressure to understand invasion: an examination of riparian forest invasibility.Invasional meltdown: invader-invader mutualism facilitates a secondary invasion.Resource competition in plant invasions: emerging patterns and research needsInvasibility of a nutrient-poor pasture through resident and non-resident herbs is controlled by litter, gap size and propagule pressure.Niche opportunities and invasion dynamics in a desert annual community.Exotic plant invasions under enhanced rainfall are constrained by soil nutrients and competition.Interactions between abiotic constraint, propagule pressure, and biotic resistance regulate plant invasion.The social structure of microbial community involved in colonization resistance.Propagule pressure determines recruitment from a commercial shipping pier.Spatial and temporal patterns of seed dispersal: an important determinant of grassland invasion.The interplay between environmental conditions and allee effects during the recovery of stressed zooplankton communities.Differential responses of native and exotic plant species to an invasive grass are driven by variation in biotic and abiotic factorsHow propagule size and environmental suitability jointly determine establishment success: a test using dung beetle introductionsBiotic resistance to tropical ornamental invasionGermination and establishment of bioenergy grasses outside cultivation: a multi-region seed addition experimentRetracted: Does natural variation in diversity affect biotic resistance?Short-term Response of Holcus lanatus L. (Common Velvetgrass) to Chemical and Manual Control at Yosemite National Park, USAFrom Spain to Chile: environmental filters and success of herbaceous species in Mediterranean-climate regionsSummer irrigation, grazing and seed addition differentially influence community composition in an invaded serpentine grasslandFrench broom (Teline monspessulana) invasion in south-central Chile depends on factors operating at different spatial scalesExotic cheatgrass and loss of soil biota decrease the performance of a native grassCaulerpa taxifolia in seagrass meadows: killer or opportunistic weed?Determinants of perennial and annual grass distribution in Mediterranean-climate CaliforniaManipulating the intrinsic parameters of propagule pressure: implications for bio-invasionCan biotic resistance be utilized to reduce establishment rates of non-indigenous species in constructed waters?The Role of Light and Soil Moisture in Plant Community Resistance to Invasion by Yellow Starthistle (Centaurea solstitialis)Fire promotes downy brome (Bromus tectorum L.) seed dispersal
P2860
Q30317872-86C0A1B7-12FC-46FE-A706-182E9CB1D8AFQ30979540-5CDDBCA9-FB77-4407-A1CE-4FD3249E1D57Q33301683-5B506790-1B2A-4B6F-95FB-B417263F6D39Q33306553-31DC5D15-03FC-4E70-8B3D-9515874D236CQ33828025-6C9939A8-489B-4F13-A3E5-71D6AE270F22Q33835958-16224D86-89A3-406B-9B8D-6D5CE2845A10Q33973879-E8341739-F98A-495E-AA2D-8CDE85E4CA79Q34027688-68989D22-8A10-4F13-8618-42D543CA8040Q34264150-B6A27DD2-3E50-4F9F-B230-91737393DD12Q34388241-2BEB893A-5C13-4377-BED6-05F41E6B15E9Q34466720-4288D971-9BD2-4770-9AE8-8FCED5C2BB7EQ35164291-63DB3CD9-BBF9-48BF-975C-C379305E6150Q35534777-B138D161-3DB9-4834-8424-0BD1C4BDE67EQ37595150-65D31A49-A34C-48B1-96D2-3D5D0A32B152Q45888722-10EE1858-42B5-42F0-8B81-45F8ED0DCC53Q46082572-67A3EAB6-C502-4BDC-88D6-4770B8924DC7Q51580230-5D9D297F-A29A-4DBC-AED6-A1A87B0F8375Q56334452-99AF190F-6754-4383-9CFB-7CCFDC693AE1Q56410914-BE1CE20E-2A11-4E15-9FC2-A86190160DFEQ56418128-E2871B67-E4B5-4479-B9CA-564A33ABF2C9Q56425920-3E3F47E6-5034-413E-9F4A-0191BCEE0641Q56427800-87697A5A-22B0-4F57-94F5-9B1CF64EB842Q56432823-F2B8E75D-5908-421C-9D16-66A57DACB8C3Q56434870-A6052492-7196-4E9A-975B-F427FEA09C6EQ56436205-47996FD8-C19F-4E8E-B1F7-61E409C67E23Q56459499-3AC2A28E-143E-4DEA-9C9B-31BD9A5A22DAQ56475819-2DDF5AFA-0AA4-4469-89B1-84599FC856E7Q56509636-0E170E0E-81D9-40BE-8B97-686FEC829CE2Q56556785-EE10AFC9-5738-4D86-8BAB-F7485138FF74Q56559895-37FBD728-1F3E-43E5-ADDA-859ED3FB9366Q56576795-C20DAEBC-72D6-4CF1-8E1D-943D6B3459F5Q56744259-DB585E7C-D963-45EB-B7AA-54FB9C45DFB9Q57052083-6D16D055-60F1-498F-930A-C43171A512A5
P2860
Ecological resistance, seed density and their interactions determine patterns of invasion in a California coastal grassland.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Ecological resistance, seed de ...... California coastal grassland.
@en
Ecological resistance, seed de ...... California coastal grassland.
@nl
type
label
Ecological resistance, seed de ...... California coastal grassland.
@en
Ecological resistance, seed de ...... California coastal grassland.
@nl
prefLabel
Ecological resistance, seed de ...... California coastal grassland.
@en
Ecological resistance, seed de ...... California coastal grassland.
@nl
P2093
P2860
P1433
P1476
Ecological resistance, seed de ...... California coastal grassland.
@en
P2093
Carla M D'Antonio
Kenwyn B Suttle
Meredith A Thomsen
Wayne P Sousa
P2860
P304
P356
10.1111/J.1461-0248.2005.00857.X
P407
P577
2006-02-01T00:00:00Z