Species;"Traits related to fire effects in meta-analysis";Citation "Ampelodesmos mauritanica";"Resprouts quickly after fire; produces flammable biomass more rapidly than native species";"Grigulis et al. 2005" "Andropogon gayanus";"High growth potential relative to native species";"Bilbao and Medina 1990" "Bromus hordeaceus";"Low quality litter decomposed less than native litter, contributing to regional fuels for a longer period of time; compared with native species, sustains dry biomass for a larger portion of the year";"Hernández et al. 2019" "Bromus rubens";"Winter annuals that escape extreme summer heat, generating high fuel load production relative to native species";"Brown and Minnich 1986" "Bromus tectorum";"Exploits soil water following fire, outcompeting natives in regeneration";"Melgoza et al. 1990" "Cenchrus ciliaris";"Increases fuel loads relative to native species";"Miller et al. 2010" "Cytisus scoparius";"Higher relative growth rate than native species";"Fogarty and Facelli 1999" "Eragrostis lehmanniana";"Much faster biomass production than native species";"Anable et al. 1992" "Hakea sericea";"Increased fuel loads relative to native species";"Van Wilgen and Richardson 1985" "Hyparrhenia rufa";"Higher growth rates in fertile sites, relative to native species";"Baruch et al. 1985" "Imperata cylindrica";"Increased fuel loads and fuel continuity relative to native species";"Lippincott 2000" "Melinus minutiflora";"Higher growth rates in fertile sites, relative to native species";"Baruch et al. 1985" "Pennisetum setaceum";"Increased fuel loads relative to native species";"Rahlao et al. 2009" "Pinus contorta";"Increased vertical fire continuity and increased flammability of fuels relative to comparison native species";"Cóbar-Carranza et al. 2014" "Schinus terebinthifolius";"Reduces fire frequency ecosystem-wide";"Stevens and Beckage 2009" "Tamarix sp.";"Rapid biomass accumulation and rapid regrowth after fire";"Ellis et al. 1998"