Plant invader |
Pathogen |
Effect of pathogen |
|
Average effect |
Acacia cyclops |
Pseudolagarobasidium acaciicola |
100.0 |
% mortality (Wood & Ginns 2006) |
92.3 |
|
|
84.6 |
% mortality (Kotze 2015) |
|
Ailanthus altissima |
Verticillium nonalfalfae |
85.0 |
%
mortality (Maschek & Halmschlager 2018) |
86.7 |
|
|
75.0 |
% mortality (Maschek & Halmschlager 2017) |
|
|
|
100.0 |
% mortality (Maschek & Halmschlager 2016) |
|
Ailanthus altissima |
Verticillium nonalfalfae |
100.0 |
% mortality (Rebbeck et al 2013) |
92.2 |
|
|
100.0 |
% mortality (AL Snyder, et al 2013) |
|
|
|
69.0 |
% reduction in survival vs control (Brooks et al 2020) |
|
|
|
100.0 |
% mortality (O’Neal & Davis 2015) |
|
Alliaria petiolata |
Erysiphe cruciferarum |
100.0 |
%
mortality (Enright & Cipollini et al 2007) |
75.0 |
|
|
50.0 |
% reduction in seed production (Enright & Cipollini 2007) |
|
Ambrosia artemisiifolia |
Septoria epambrosiae sp. nov. |
NA |
|
NA |
Asclepias syriaca |
Fusarium sporotrichioides |
NA |
|
NA |
Bromus tectorum |
Pyrenophora semeniperda |
51.7 |
%
reduction in seed survival (Beckstead et al 2007) |
35.7 |
|
|
59.7 |
% reduction in seed survival (Meyer et al 2008) |
|
|
|
20.3 |
% seed mortality in non-dormant seeds (Meyer et al 2010) |
|
|
|
11.1 |
% seed mortality (Meyer et al 2007) |
|
Bromus tectorum |
Ustilago bullata |
60.0 |
% of plots
with infection (Prevéy & Seastedt 2015) |
42.5 |
|
|
3.5 |
% reduction in seed production (Prevéy & Seastedt 2015) |
|
|
|
64.0 |
infection rate (Meyer et al 2001) |
|
Centaurea diffusa |
Sclerotinia sclerotiorum |
NA |
|
NA |
Centaurea stoebe ssp. micranthos |
Sclerotinia
sclerotiorum |
66.7 |
% mortality (Garcia de la Cruz 2018) |
83.3 |
|
|
100.0 |
% mortality (Ridenour & Callaway 2003) |
|
Centaurea stoebe ssp. micranthos |
Pseudomonas syringae pv.
syringae |
NA |
|
NA |
Hakea sericea |
Colletotrichum gloeosporioides |
64.3 |
%
mortality (Morris 1989) |
64.3 |
Lonicera maackii |
Insolibasidium deformans |
48.6 |
%
infection (Royce et al 2020) |
60.0 |
|
|
71.5 |
% decrease RGR (Royce et al 2020) |
|
Lythrum salicaria |
Alternaria alternata |
48.0 |
%
mortality (Crocker 2016) |
48.0 |
Lythrum salicaria |
Peyronellaea glomerata |
64.0 |
%
mortality (Crocker 2016) |
64.0 |
Microstegium vimineum |
Bipolaris sp. E.g microstegii |
40.0 |
% reduction in seed head production (Kleczewski and Flory 2010) |
56.3 |
|
|
72.6 |
% diseased leaves (Bruckart 2017) |
|
Mimosa pigra |
Botryodiplodia theobromae |
55.6 |
%
mortality (Sacdalan 2015) |
55.6 |
Phragmites australis |
Pythium phragmites |
100.0 |
%
mortality (Crocker 2015) |
100.0 |
Phragmites australis |
Fusarium sporotrichioides |
100.0 |
% mortality (Crocker 2016) |
100.0 |
Phragmites australis |
Alternaria alternata |
58.0 |
%
mortality (Crocker 2016) |
58.0 |
Phragmites australis |
Alternaria infectoria |
75.0 |
%
mortality (Crocker 2016) |
75.0 |
Phragmites australis |
Peyronellaea glomerata |
46.0 |
%
mortality (Crocker 2016) |
46.0 |
Phragmites australis |
Epicoccum nigrum |
51.0 |
%
mortality (Crocker 2016) |
51.0 |
Rosa multiflora |
rose rosette disease (Emaravirus) |
88.0 |
%
mortality (Amrine et al 1990) |
69.8 |
|
|
83.0 |
% infection compared to control (Epstein et al 1997) |
|
|
|
10.2 |
% decrease in seed production (Epstein & Hill 1995) |
|
|
|
98.0 |
% mortality (O’Neal & Davis 2015) |
|
Rubus anglocandicans |
Phytophthora bilorbang sp. nov. |
39.4 |
% mortality (Aghighi et al 2012) |
39.4 |