Agriculture Reference
In-Depth Information
Metcalf DA (2002) Development of biological control agents which control onion white root rot
under commercial field conditions. In: Proceedings Onions 2002 Conference. NSW Agricul-
ture, Australia.
Osborn AM, Moore ERB, Timmis KN (2000) An evaluation of terminal-restriction fragment
length polymorphism (T-RFLP) analysis for the study of microbial community structure and
dynamics. Environmental Microbiology 2:39-50
Pagans E, Barrena R, Font X, Sanchez A (2006) Ammonia emissions from the composting of
different organic wastes. Dependency on process temperature. Chemosphere 62:1534-1542
Palmer AK (2009) Standardised production of aerobic compost extract for disease management in
sustainable viticulture. PhD thesis. University of Tasmania, Hobart, Tasmania, Australia
Palmer AK, Brown J, Ross T, Metcalf DA, Evans KJ (2010a) Potential for growth of
E. coli
in
aerobic compost extract. Compost Sci Util 18:152-161
Palmer AK, Evans KJ, Metcalf DA (2010b) Characters of aerated compost tea from immature
compost that limit colonization of bean leaflets by
Botrytis cinerea
. J Appl Microbiol
109:1619-1631
Pane C, Celano G, Villecco D, Zaccardelli M (2012) Control of
Botrytis cinerea
,
Alternaria
alternata
and
Pyrenochaeta lycopersici
on tomato with whey compost-tea applications. Crop
Prot 38:80-86
Peiffer JA, Spor A, Koren O, Jin Z, Tringe SG, Dangl JL, Buckler ES, Ley RE (2013) Diversity
and heritability of the maize rhizosphere microbiome under field conditions. Proc Natl Acad
Sci U S A 110:6548-6553
Peters S, Koschinsky S, Schwieger F, Tebbe CC (2000) Succession of microbial communities
during hot composting as detected by PCR-single-strand-conformation polymorphism-based
genetic profiles of small-subunit rRNA genes. Appl Environ Microbiol 66:930-936
Ramona Y, Line MA (2002) Potential for the large-scale production of a biocontrol fungus in raw
and composted paper mill waste. Compost Sci Util 10:57-62
Reglinski T, Elmer PAG, Taylor JT, Parry FJ, Marsden R, Wood PN (2005) Suppression of
Botrytis
bunch rot in Chardonnay grapevines by induction of host resistance and fungal antagonism.
Australas Plant Pathol 34:481-488
Rogiers SY, Whitelaw-Weckert M, Radovanovic-Tesic M, Greer LA, White RG, Steel CC (2005)
Effects of spray adjuvants on grape (
Vitis vinifera
) berry microorganisms, epicuticular wax and
susceptibility to infection by
Botrytis cinerea
. Australas Plant Pathol 34:221-228
Ryckeboer J, Mergaert J, Coosemans J, Deprins K, Swings J (2003a) Microbiological aspects of
biowaste during composting in a monitored compost bin. J Appl Microbiol 94:127-137
Ryckeboer J, Mergaert J, Vaes K, Klammer S, De Clercq D, Coosemans J, Insam H, Swings J
(2003b) A survey of bacteria and fungi occurring during composting and self-heating pro-
cesses. Ann Microbiol 53:349-410
Salter MA, Ross T, McMeekin TA (1998) Applicability of a model for the non-pathogenic
Escherichia
coli
for predicting the growth of pathogenic
Escherichia coli
. J Appl Microbiol 85:357-364
Scheuerell S (2003) Understanding how compost tea can control disease. Biocycle 44:20-25
Scheuerell S (2004) Going from compost to compost tea: weighing plant health benefits against
human pathogen uncertainties. Phytopathology 94:S127-S127
Scheuerell S, Mahaffee W (2002) Compost tea: principles and prospects for plant disease control.
Compost Sci Util 10:313-338
Scheuerell SJ, Mahaffee WF (2004) Compost tea as a container medium drench for suppressing
seedling damping-off caused by
Pythium ultimum
. Phytopathology 94:1156-1163
Scheuerell SJ, Mahaffee WF (2006) Variability associated with suppression of gray mold (
Botrytis
cinerea
) on geranium by foliar applications of nonaerated and aerated compost teas. Plant Dis
90:1201-1208
Segarra G, Casanova E, Borrero C, Aviles M, Trillas I (2007) The suppressive effects of com-
posts used as growth media against
Botrytis cinerea
in cucumber plants. Eur J Plant Pathol
117:393-402
Sholberg P, Harlton C, Boule J, Haag P (2006) Fungicide and clay treatments for control of
powdery mildew influence wine grape microflora. Hortscience 41:176-182
