This document provides an overview of organic grape production. It discusses geographical considerations for disease, insect, and weed management depending on location. Disease management involves cultural strategies and organic approved products. Insects and mites can be controlled with pheromones and other organic treatments. Weeds are managed through cover crops, mulching, and cultivation. The document also briefly discusses marketing eastern labrusca grapes and organic wines. Tables provide information on common grape species and cultivars used for wine production in different regions of North America.
2. Table 1. Wine Grape Species
Grape Common Names Cultivars Native to Climatic/pest Additional
Species and Hybrids considerations Information
Vitis vinifera European Grape, Many Asia Minor Widely planted in western
US, but on hybrid root-
Vinifera grape stocks, as V. vinifera root-
stocks are susceptible to
phylloxera. Generally not
as cold hardy as native V.
labrusca grapes, so less
widely planted in the
Northeast. Vinifera grapes
can be generally charac-
terized as requiring a long
growing season, relatively
high summer temperatures,
low humidity, a ripening
season free of rainfall, and
mild winter temperatures.
Vitis rotundifolia, Arkansas Grape, Big White Black Beauty, Black Southern Delaware Adapted to humid south- Because of its resistance to
(Please note that some Grape, Black Grape, Bull Fry, Bountiful, Car- to southern Illinois, east. Lacks frost hardi- many pests, V. rotundifolia
authorities place this Grape, Bullace Grape, Bul- los, Chief, Cowart, south by southwest ness and can be injured by would be the ideal rootstock
species in a separate let Grape, Bullit Grape, Bush Darlene, Dear- to northeastern minimum winter temps of candidate for Vinifera grafts
genus, Muscadinia.) Grape, Bushy Grape, Currant ing, Delight, Dixie, Texas, south to the 0 degrees F. Should avoid were it not for the fact that it
also: Vitis acerifolia Grape, Flowers Grape, Green Doreen, Florida Gulf, and east to the growing in areas that often will rarely accept a graft from
(Le Conte), Vitis angu- Muscadine, Hickman’s Grape, Fry, Fry, Higgins, Atlantic. have 10 degree F temps. It any but its own species. Some
lata (Le Conte), Vitis Muscadine Grape, Musca- Hunt, Ison, Jane- is most abundant on sandy, authorities consider that this
callosa, Vitis cordi- dinia Rotundifolia, Mustang bell, Janet, Jumbo, well-drained bottom lands species (along with the related
folia, Vitis hyemalis, Grape, Roanoke Grape, Scup- Loomis, Magno- and along river banks and V. munsoniana) should be
Vitis incisa (Rafin- pernong Grape, Southern lia, Nesbitt, Noble, in swamps, thick woodlands in a different genus, due to
esque), Vitis musca- Fox Grape, Warty Grape, Pineapple, Regale, and thickets. They tolerate a number of morphological
dina (Rafinesque), White Grape, White Musca- Scuppernong, hot summers but do not differences (not to mention
Vitis mustangensis, dine, White Musky Grape, Sterling, Summit, withstand drought and do that V. rotundifolia has a differ-
Vitis peltata (Rafin- and Yellow Muscadine Supreme, Sweet not adapt well to semi-arid ent number of chromosomes
esque), Vitis rotun- Jenny, Tara, Tar- conditions. Satisfactory (n=20) than other Vitas spe-
difolia Flowers, Vitis heel, and Triumph growth in warmer grape cies (n=19). California Rare
rotundifolia Scup- growing areas of Washing- Fruit Growers website provides
pernong, Vitis taurina ton, California and Oregon. much information about plant-
(Bartram), Vitis ver- Nearly immune to phyllox- ing and care of this species, as
rucosa (Muhlenberg), era, Pierce’s disease well as a listing of the various
and Vitis vulpina and nematodes. cultivars and their characteris-
(Linnaeus). tics: www.crfg.org/pubs/ff/mus-
cadinegrape.html. Also, Jack
Keller’s website has a wealth
of information on this species:
http://winemaking.jackkeller.
net/rotundif.asp
Vitis labrusca, also: Alexander Grape, Alexan- Alexander, Northeast and Nearly immune to phyllox- Tougher skin than European
Vitis blandii (Prince), dria Grape, Beaconsfield Catawba, Cham- east of US. era. Vitis labrusca has long grapes. Deep purple in color.
Vitis canina, Vitis Grape, Black Cape Grape, pion, Concord been used as rootstock Major use is for sweet grape
catawba (Hort.), Black Champion, Black Fox (80% of V. labrusca for V.vinifera grafts and juice (Welch’s) and associated
Vitis ferruginga, Vitis Grape, Black Grape, Buck production), Dela- for development of hardy products–jelly, jam, preserves,
labrusca alexandrer, Grape, Cape Grape, Cham- ware, Niagara, hybrids. some wine.
Vitis labrusca cham- pignon Grape, Clifton’s Con- Lakemont, Reli-
pion, Vitis labrusca stantia Grape, Clifton’s Lom- ance, and Himrod
var. subeden tata (Fer- bardia Grape, Columbian
nald), Vitis labrusca Grape, Constantia Grape,
var. typica (Regel), Early Champion Grape, Grapes grow all over North America, except in the most extreme desert and tun-
Vitis latifolia, Vitis Farker’s Grape, Fox Grape, dra. North America is home to more than half of the world’s 50 or so species of
luteola, Vitis sylves- Frost Grape, Madeira of York
grapes. Various authorities recognize between 19 and 29 species of native North
tris virginiana (Bauh), Grape, Northern Muscadine
Vitis taurina (Walter), Grape, Plum Grape, Rothrock
American grape. Table 1 lists the four American grape species used in wine pro-
Vitis vinifera sylvestris Grape, Rothrock of Prince duction: V. rotundifolia, V. labrusca, V. aestivalis, and V. riparia. Please note, how-
americana (Pluk), and Grape, Schuykill Muscadel, ever, that except for Vitas rotundifolia and Vitas munsoniana, these “species”
Vitis vulpina Schuykill Muscadine, Skunk readily hybridize, resulting in a situation where one specie’s traits and range
(Marshall) Grape, Springmill Constantia overlap with another (or several others!). Some areas may have two or more
Grape, Swamp Grape, Tal- species co-existing and with the various permutations of hybrid offspring pos-
mam’s Seedling Grape, Task- sible, identification becomes difficult. This is why there are so many names listed
er’s Grape, Tolman, Vevay under “Grape Species”—some authorities described “new” grape species that
Grape, Winne Grape, and had already been described by others under a different name. (Table adapted from:
York Lisbon Grape Winemaking Homepage, Jack Keller, 2005. http://winemaking.jackkeller.net/natives.asp)
Page 2 ATTRA Grapes: Organic Production
3. Table 1. Wine Grape Species (continued)
Grape Species Common Cultivars and Native to Climatic/pest Additional
Names Hybrids considerations Information
Vitis aestivalis (Munson), also: Cynthiana Grape, Norton, Cynthiana, Tolerant of Pierce’s Dormant cuttings of this species do
Vitis nortoni, Vitis lincecumii, Arkansas Grape, Nor- America Disease. (Rombough, not root well and this trait is com-
Vitis bicolor. The later two ton Grape, Norton 2002) monly passed on to hybrids (an
are considered varieties of Virginia Grape, Nor- exception is the hybrid America, a
V. aestivalis ton’s Seedling Grape, cross with V. rupestris, which roots
Norton’s Virginia readily from dormant cuttings).
Seedling Grape, and Green cuttings will root on mist
Red River Grape benches (Rombough, 2002). This
grape can make an excellent red
wine that can compete in quality
with that made from vinifera grapes.
Vitis riparia, also: Vitis amara, Bermuda Vine, Frost The better root- Riparia is the most It is known to with- Riparia grows readily from from
Vitis boulderensis, Vitis cal- Grape, June Grape, stocks in France widely distributed stand temperatures to cuttings and makes a good stock
losa (Le Conte), Vitis canaden- Maple Leaved Cana- have been given of any American -60 degrees F., is mod- for grafting, where the union with
sis acceris folio (Tournefort), dian Grape, Mignon- varietal names such species of grape. erately drought resis- other species is usually permanent.
Vitis colombina, Vitis con- ette Vine, River Grape, as Riparia Gloire, It is found in New tent when naturalized Native Riparias are early bloomers
color, Vitis cordifolia (Darling- Riverside Grape, Riparia Grand Gla- Brunswick and to such conditions, but late ripeners, and their fruit is
ton), Vitis cordifolia riparia Riverbank Grape, bre, Riparia Scribner, northern Quebec and is found along the best for wine when left on the
(Torr. et Gray), Vitis cordifolia Scented Grape, Riparia Martin and to Manitoba and banks of streams, in vine until over-ripe and even
var. Riparia (Gray), Vitis cor- Sweet-Scented Grape, others. There are no Montana, south to ravines, on the islands slightly shriveled.
difolia var. culpina (Eaton), Uferrebe Grape, and American or Cana- Tennessee, north- of rivers, and in wet
Vitis dimidiata (Le Conte), Vignes des Battures dian counterparts ern Texas, Colo- places. It is very resis-
Vitis hyemalis (Le Conte), Vitis to these French rado, and Utah, tent to phylloxera. It
illinoensis (Prince), Vitis incisa varietals. and from the Atlan- is less resistent to rot
(Planchon), Vitis intermedia tic to the Rock- than Aestivalis, but
(Nuttal), Vitis missouriensis ies in all areas in somewhat more resis-
(Prince), Vitis montana, Vitis between. tent than Labrusca.
odoratissima (Donn.), Vitis The foilage is rarely
odoratissima (Pursh), Vitis attacked by mildew,
palmata (Vahl), Vitis popu- but is susceptible to
lifolia, Vitis riparia var. pal- the leaf-hopper.
mata (Planchon), Vitis riparia
var. praecox (Englemann),
Vitis rubra (Desf.), Vitis sero-
tina (Bartram), Vitis tenuifo-
lia (le Conte), Vitis virginiana
(Hort.), Vitis virginana (Poir),
Vitis virginiana sylvestris
(Parkins), Vitis virginiensis (de
Juss), Vitis vulpina (Linnaeus),
Vitis vulpina var. praecox (Bai-
ley), Vitis vulpina var. riparia
(Regel), and Vitis vulpina var.
syrt. (Fernald and Weigand).
Vitis rupestris, also: Vitis Beach Grape, Bush Cultivated French Southern Mis- Rupestris is remark- Rupestris bench-grafts well but is
populi foliis (Lindh.), Vitis rup- Grape, Currant Grape, rootstocks are vari- souri to Kentucky, ably resistant to phyl- less successful in field grafts. It is
estris var. dissecta (Eggert), Felsenrebe Grape, ously known as western Tennes- loxera. Its propensity not widely cultivated in the United
and Vitis vinifera var. rupes- Ingar Grape, July Rupestris Mission, see, Arkansas, to put down deep States as rootstock and its own fruit
tris (Kuntze). Grape, Mountain Rupestris do Lot, Oklahoma, eastern rather than lateral are unprofitable. It is considered
Grape, Rock Grape, Rupestris Ganzin, and central Texas roots make it espe- drought-resistent, but not if the
Sand Grape, and Rupestris Mar- to the Rio Grande, cially suited to dry, land dries out deeply. It was widely
Sugar Grape tin, Rupestris St. westward into New rocky soils on south- and successfully used in France
George, and other Mexico. Wild stands ern slopes. as grafting rootstock where deep
names. These have in Pennsylvania, roots were desired.
no American coun- Delaware and
terparts other than Washington, D.C.
simple Rupestris. are probably due to
escaped cultivars.
A note about French Hybrids: Seibel is the common name for a number of Vitis vinifera hybrids that have been introduced over the years in a quest to develop climate tolerant
grape varieties that are resistent to rot, mildew and phylloxera. Some of these, notably the bunch rot resistant Chambourcin, were widely planted in France in the 1970s. How-
ever, stringent European Union rules forbidding the blending of hybrids in traditional wine varieties have led to their disappearance from most European vineyards. Nonethe-
less, several hybrids have found acceptance as wine grapes in the Eastern United States, Canada and England, including the dark-skinned Chambourcin (Noir), Chancellor
(Seibel 7053), Chelois, and Vignoles (Ravat 51). Widespread light-skinned hybrids include Seyval Blanc, Vidal Blanc and Villard Blanc. Seyval Blanc is in fact so widely planted
in parts of the Eastern United States that it is sometimes referred to as “Indiana Chardonnay.” It is also quite widespread in England. (from: Grapes, Wines, and Vines, Bella
Vista Ranch webpage, 1999. http://members.aol.com/bellavue/grapes.html)
www.attra.ncat.org ATTRA Page 3
4. Geographical Considerations Symposium. The report can be viewed online at
www.nysaes.cornell.edu/hort/faculty/pool/
and Disease Management organicvitwkshp/tabofcontents.html.
As with other fruit crops, the generally drier
conditions in the western half of the United Hard copies can be ordered as indicated in
States are more conducive to organic grape the Publications and Resources section at
production than in the humid East, particu- the end of this publication.
larly with respect to cultivation of Vitis vinif- In the East, several diseases can be devas-
era (European grape). The many large-scale tating, but black rot (Guignardia bidwellii) is
organic wine and table grape vineyards in perhaps the most important of these to con-
California are testimony to the relative ease of trol. It only takes a few black, rotted grapes
organic grape culture in that part of the coun- to render a cluster unsaleable on the fresh
try. As recently as 1997, California had 96 market. On the other hand, grapes produced
percent of the country’s organic grape acreage. primarily for juice, wine, or other processed
A table with a state-by-state listing of acreage products will have a slightly higher tolerance
of organic fruit production may be found at for cluster damage.
www.ers.usda.gov/emphases/harmony/issues/
organic/table12.htm. Northern growers should choose cultivars
Related ATTRA with proven cold hardiness for their par-
Publications However, with careful attention to pest con- ticular climatic zone. The European wine
trol (especially diseases) and cultivar selec- grape (Vitis vinifera) is not well-adapted out-
Organic Crop
Production Overview
tion appropriate for each climate, grapes can side of USDA climate zone 8; zone 7 can be
be grown organically almost anywhere in the marginal. In zones 5 to 7, American types
Tree Fruits: Organic United States. Native American grape cul- (mostly V. labrusca) or some of the American-
Production Overview tivars, or crosses between American grape European hybrids (French hybrids) are the
Kaolin Clay for cultivars and Vitis vinifera, known as French best choices. There are some American types
Management of hybrids, may be easier to grow organically in that are cold hardy in zones 3 and 4.
Glassy-winged Sharp- the East, because of their generally greater
shooter in Grapes resistance to pests. (See Table 1, Wine Grape To view a USDA zone map, see
Organic Orchard, Species on pg. 2.) www.usna.usda.gov/Hardzone/
Vineyard, and Berry ushzmap.html
Crop Documentation
In contrast to the West, organic viticulture
Forms in the eastern U.S. is still limited to a few
innovative growers, and many questions As with other types of cultural informa-
remain about organic management prac- tion, cultivar recommendations for a par-
tices, especially those regarding disease con- ticular region are best obtained through the
trol in a humid climate. An eastern grower county or state Cooperative Extension Ser-
producing for the fresh market should have vice. A University of Illinois table indicat-
a disease-control plan. From 1990 to 1995, ing susceptibility of cultivars to low-tempera-
Cornell University researchers explored ture injury and disease is available online at
organic vineyard management in the North- http://w3.aces.uiuc.edu/NRES/faculty/Skirvin/
east in collaboration with grape growers. cfar/bbsusc.htm. (See also Appendix I:
The results of this and other research are Disease Resistance Rating Chart for Grape
found in Organic Grape and Wine Production Cultivars.)
Cold Hardiness of Grape Cultivars:
Very Hardy: Swenson hybrids: LaCrosse, St. Croix, St. Pepin , Edelweiss, Frontenac, Foch , Leon, Millot , Ventura
Hardy: DeChaunac , Chancellor, Vignoles, Cynthiana, Steuben , Concord, Catawba , Niagara, Delaware
Moderately Hardy: Seyval, Traminette , Melody
Moderately Tender: Vidal, Chambourcin, Chardonel , Cayuga White
Tender: Cabernet franc, Riesling, Chardonnay, Cabernet Sauvignon
Very Tender: Merlot, Pinot Noir, Gewurztraminer
From: Bordelon, 2002.
Page 4 ATTRA Grapes: Organic Production
5. Extreme disease pressure makes organic
culture of bunch grapes very difficult in the
What Type of Grape to Plant? Grape Cultivar Information:
deep South. However, many cultivars of the
indigenous muscadine grape, V. rotundifo- Grape Cultivars for North-Central New Mexico
www.cahe.nmsu.edu/pubs/_h/h-309.html
lia, are readily grown without pesticides of
This site provides names and descriptions of the various hybrids appropriate
any sort. Muscadines have a special appeal for cultivation in New Mexico.
in southern markets and are consumed
Viticulture Site Suitability for North Carolina
fresh as well as processed into jams, pre-
www.ncwine.org/sitesuit.htm
serves, juices, and wine. This site provides maps with color-coded zones that outline regions rated as
most reliable, good sites and risky sites for specific cultivars of grapes, as well
Diseases as maps showing growing season, precipitation at harvest, extent of Pierce’s
Disease, and freezing temperatures.
The simplest and most practical approach to
disease problems on grapes is to plant dis- Grape varieties—crosses and genetic composition
www.littlefatwino.com/grgenetics.htm
ease-resistant varieties (see Appendix I:
Provides a chart of non-traditional (American and French hybrid) grape vari-
Disease Resistance Rating Chart for Grape eties, including parentage, mostly for northern climes.
Cultivars) and to use certified disease-free
Wine and Juice Grape Varieties for Cool Climates
stock. Unfortunately, the market often pre-
www.nysaes.cornell.edu/hort/faculty/reisch/bulletin/wine/
fers those varieties not native to a particular This site provides an excellent survey of grape cultivars suitable for planting
region, and that are especially susceptible in cool climates, including American, French hybrid, and European varieties.
to diseases indigenous to the region. This Includes descriptions of the grapes, pictures, and strong and weak points of
is the case with the V. vinifera cultivars, each variety.
the high-quality European wine grapes. In California Grapevine Nursury
general, they are highly susceptible to all www.californiagrapevine.com/rootstockchart.htm
American grape diseases and pests, includ- This site has a table of information about 21 types of rootstocks, including
ing downy mildew, black rot, Phomopsis parentage, maturity rates, nematode and drought resistance, best soil/climate
leaf spot, powdery mildew, and phyllox- conditions, and other useful comments.
era (a root-feeding, aphid-like insect). If a Resistance of Grapes Grown in Michigan
grower in a humid climate decides to plant www.msue.msu.edu/msue/imp/modfr/visuals/2643t1.jpg
V. vinifera cultivars, the grower will likely be This site has a table of relative resistance of grape varieties (American, French
culturing a susceptible plant under environ- hybrid, and European) to winter freeze damage, disease (black rot, downy
mildew, harvest season botrytis, and phomopsis), phylloxera, and sulfur-
mental conditions that invite disease. There-
induced damage.
fore, profitable production of a marketable
product without the use of fungicides will
be very difficult. However, as already indi-
cated, states with dry, Mediterranean cli- As noted earlier, some breeders are exper-
mates are quite amenable to the culture of imenting with French hybrids, and are
the European wine grape, and organically backcrossing French hybrids to develop
acceptable fungicides will be adequate for cultivars with cold hardiness, disease
controlling most disease problems. resistance, and good fruit/wine quality.
The major breeding programs for French
An excellent resource for those hybrids in the US are:
interested in organic grape production
in the Midwest may be found at:
www.oardc.ohio-state.edu/ New York State Ag
fruitpathology/organic/PDF/ Experiment Station, Geneva
OSU-Organic-Grape-Diseases.pdf Bruce Reisch
This document focuses on organic Geneva, NY 14456
management of grape diseases, 315-787-2239
including black rot, powdery mildew, 315-787-2216 FAX
phomopsis cane and leaf spot disease, bruce.reisch@cornell.edu
eutypa dieback, downy mildew,
botrytis bunch rot, and crown gall.
www.attra.ncat.org ATTRA Page 5
6. University of Minnesota as spiders and mites that are present in the
Peter Hemstad vineyard. Another problem associated with
952-443-14-92 the use of sulfur is tissue injury, or phyto-
hemst001@umn.edu toxicity. This damage can occur when sul-
Jim Luby fur is used while temperatures are above
612-624-3453 85°F. (about 30° C.). Some cultivars, espe-
lubyx001@umn.edu cially those of V. labrusca origin such as the
Concord, are highly susceptible to sulfur
Elmer Swenson, Private Breeder, injury even at lower temperatures. The Dis-
Osceola, Wisconsin ease Resistance Rating Chart, Appendex
I, lists sulfur-sensitive grape cultivars. In
University of Arkansas
regions where rainfall is plentiful during the
Jim Moore growing season, wettable sulfur or flowable
479-575-2811 sulfur formulations are preferred for their
jnmoor@uark.edu retentive qualities. (Pearson and Goheen,
John Clark 1988) Flowable formulations are less dam-
479-575-2810 aging to predatory mite populations and
jrclark@uark.edu should be used whenever possible.
Justin Morris Bordeaux mix (copper sulfate mixed with
479-575-4040 hydrated lime) is less likely to be phytotoxic
jumorris@uark.edu than sulfur due to the “safening” influ-
American grape varieties (V. labrusca and ence of the lime. However, damage can still
others) differ in their susceptibility to vari- occur on sensitive cultivars, especially in
ous diseases. Concord, for example is quite high temperatures.
resistant to anthracnose but susceptible Organically acceptable alternatives to
to black rot. Ives is relatively resistant to mineral-based fungicides exist. A new
black rot but highly susceptible to downy generation of microbial fungicides, such
mildew. Edelweiss (V. labrusca) and Cynthi- as AQ-10™ (for powdery mildew control)
ana (V. aestivalis, also known as Norton) are and various commercial formulations of
two American cultivars that appear to have Bacillus subtilis, (i.e., Serenade™, Epic™,
significant resistance to most of the major Kodiak™), provide organic growers with
grape diseases. Muscadine grapes (V. rotun- new tools to manage plant diseases. New
difolia), suited only to the South, are very fungicides of this type, and new uses for
resistant to most bunch grape diseases and previously registered microbials, appear
pests. See Appendix I for more informa- regularly on the market.
tion on varietal resistance.
Compost teas have been successfully used
Where varietal resistance, sanitation, and in other plant production operations as
other cultural controls are not adequate, an a combined foliar feed and disease sup-
organic grower will have to rely on organi- pressive technique. There is potential for
cally acceptable mineral fungicides (various using aerobic compost tea in vineyards to
sulfur and copper formulations), microbial- manage diseases, but the parent material
based fungicides, compost teas, and veg- (i.e., manures vs. green waste) of the com-
etable and mineral oils used as dormant post used to make the tea is an important
applications, or on foliage, depending on consideration, as is the interval between
the weather.
last application of the tea and harvest.
Organic growers are allowed to use some Additional information is provided in the
mineral fungicides, since they are mined following pages under specific disease
materials; however, sulfur and sulfur-con- headings. For more information, also see
taining fungicides can be disruptive to ben- ATTRA’s Notes on Compost Teas and Use of
eficial insects and other arthropods, such Baking Soda as a Fungicide.
Page 6 ATTRA Grapes: Organic Production
7. The following discussion of grape diseases Some formulations of sodium and potassium
focuses primarily on organic controls. For bicarbonate also have proven successful
disease symptoms, life cycles, and epide- in controlling powdery mildew on grapes.
miology, refer to the Publications and Research in Germany demonstrated that
Resources section. sodium and potassium bicarbonate were
highly effective against powdery mildew
Powdery Mildew and can be used in organic viticulture to
Vitis species differ greatly in susceptibil- minimize sulfur or completely substitute
ity to powdery mildew. V. vinifera cultivars the use of sulfur. (Kauer, et. al., 2000). See
are highly susceptible, whereas Ameri- ATTRA’s Use of Baking Soda as a Fungi-
can species are much less so. The French cide for further details on this topic. Ore-
hybrids developed by crossing V. vinifera gon State University’s 2002 Pest Manage-
with American species have varying lev- ment Guide for Wine Grapes in Oregon rated
els of resistance. Cabernet Franc, Cabernet baking soda (bicarbonates) as “slightly
Sauvignon, Chancellor, Chardonnay, Chel- effective” for powdery mildew. Results with
ois, Gewurztraminer, Merlot, Pinot Blanc, these products will vary according to local
P
Pinot Noir, Riesling, Rosette, Rougeon, factors, such as relative humidity, disease
Sauvignon blanc, Seyval, Vidal 256, and pressure, the grower’s experience with alter- owdery
Vignoles are considered highly susceptible. native controls, and context of use (i.e., use mildew can
(Ellis, 1994) in a heavily sprayed, conventionally man- reduce vine
aged vineyard vs. use in a lightly sprayed or
Powdery mildew can reduce vine growth, growth, yield, fruit
organically managed vineyard.) Kaligreen
yield, fruit quality, and winter hardiness. quality, and winter
The fungus that causes powdery mildew, and MilStop are OMRI-listed formulations
hardiness.
Uncinula nector, overwinters inside dormant of potassium bicarbonate.
buds on the grapevine or on the surface of Calcium has been shown to inhibit fungal
the vine. Its control in commercial vine- spore germination. Low calcium or excess
yards generally is based on the use of fun- nitrogen levels in the grape leaf tissue can
gicides. Sulfur is effective against powdery set up conditions for powdery mildew. (Jur-
mildew, but, as mentioned above, care must gens, 2005) A 1:1 ratio of calcium to nitro-
be taken to avoid damage to sulfur-sensitive gen in a tissue test is ideal. (Jurgens, 2005)
cultivars. Cultural practices may reduce There is some evidence that foliar sprays of
the severity of powdery mildew. Planting in milk, diluted 1:10 with water, can reduce
sites with good air circulation and sun expo- powdery mildew levels on grapes (Bettiol,
sure, and orienting rows to take advantage 1999; Crisp and Bruer. 2001), although
of these factors, are helpful. (Pearson and it is not clear if the fungal inhibition is a
Goheen, 1988) The use of training systems function of calcium/milk toxicity to fungal
that promote good air circulation should be spores, competition from other organisms
incorporated. Some vineyards manage the feeding on milk nutrients, increased cal-
leaf canopy by leaf thinning so that both cium uptake by leaf cells resulting in stron-
leaves and grape clusters are exposed to ger cell walls, or some combination of these
good air circulation, allowing them to dry factors. Whey is also used by some practi-
off quickly after heavy fogs or rainstorms, tioners due to its availability and is diluted
and thus helping reduce the possibility of at a ratio of 1:3 (whey:water). The milk/
infection. Although moisture is not nec- whey formulations are most effective when
essary for powdery mildew infections to
used on varietals that have some resistance
occur, rains and heavy fogs can help spread
to powdery mildew. David Bruer is a chem-
the spores.
ist and former professor of enology at the
Applied materials for managing powdery University of Adelaide. He is the owner of
mildew include sulfur products, bicarbon- a 67 acre vineyard in Australia where some
ates, oils, and biologicals (including com- of the milk/whey trials were done. Dr. Bruer
post teas), described in more detail below. claims that under the influence of ultravio-
www.attra.ncat.org ATTRA Page 7
8. let light, a protein in whey (ferroglobulin) Black Rot
produces an oxygen radical that is extraor-
Black rot is the most important disease
dinarily toxic to fungal spores.
facing eastern growers, yet it is virtually
Various formulations of oils, some of them unknown in the West. Black rot is caused
botanically based, can be used to manage by the fungus Guignardia bidwellii. This
powdery mildew. A commercial formula- fungus overwinters in mummified ber-
tion of neem oil, Trilogy™, manufactured ries on the soil or in old clusters still on
by Certis, is registered for use on grapes the vines. Fungal spores (ascospores) are
against powdery mildew and several other spread by air currents and blowing rain,
diseases and is also OMRI-listed. Research both in the early spring and throughout the
in Germany demonstrated that rapeseed oil growing season. All cultivated varieties of
reduced the incidence of Uncinula necator grapes are susceptible to infection by the
by 66 to 99 percent and reduced the sever- black rot fungus.
ity of the disease by 96 to 99.9 percent
on ripening berries. However, some side Hours of leaf wetness required for
effects on predatory mites were observed black rot infection period at various
(Trimborn et al., 2000). JMS Stylet temperatures following a rain
oil is effective against powdery mil-
dew and is OMRI listed. Hours (of continual
The use of compost Temp (ºF)
wetness from rain)
teas in organic pro-
A new product from Agraquest is also
duction has been 50 24
now available; Sonata is a formula-
reviewed by the Com- 55 12
post Tea Task Force of
tion of Bacillus pumilus and is reg-
the National Organic
istered for use against powdery mil- 60 9
Standards Board dew on grapes. In the late 1980s and 65 8
(NOSB). The Task Force ‘90s, field and greenhouse studies on 70 7
issued a report in April compost teas in Germany found that
75 7
2004 outlining the undiluted compost watery extracts
issues associated with (derived from cattle manure-based 80 6
using compost teas compost, as well as supplemented 85 9
(such as feedstocks, extracts of composts derived from 90 12
additives, and pres- horse manure) were effective against
Source: R.A. Spotts, The Ohio State University
ence of human patho- the causative agent of powdery mil-
gens) and also made dew, Uncinula necator. The effects
some recommenda- do not appear to be systemic, but are Proper sanitation is important in controlling
tions. This report can antagonistic in nature, correlating black rot. Removing overwintering mum-
be downloaded at with high levels of active microbes mified berries from the vines and disking
www.ams.usda.gov/ on the leaf surface. (Trankner and mummies into the soil are beneficial prac-
nosb/meetings/ Brinton, 1994) More recent research tices that reduce the amount of primary
CompostTeaTaskForce from Germany supports these fi nd- inoculum present in the spring. (Pearson
FinalReport.pdf ings, but found that at high rates of and Goheen, 1988) Black rot control for
infection pressure, compost extracts bunch grapes is very difficult in the East
were not able to provide a sufficient due to high humidity and foliage density.
level of protection against powdery mildew. For organic growers, liquid copper formu-
(Trimborn et. al., 2000) More research lations, or copper-sulfur compounds such
is needed to better understand how the as Bordeaux mix, can be used for preven-
components of the extracts interact with tion of black rot, as well as suppression of
powdery mildew spores and the time powdery mildew, downy mildew, and pho-
duration between application and harvest mopsis leaf spot. Some of the new microbial
needed to ensure no contamination of the fungicides may provide control, though they
grapes by pathogens that may be in the may not yet be registered for use on grapes
compost teas. against black rot.
Page 8 ATTRA Grapes: Organic Production
10. Control of Phomopsis for the organic grower of these measures is sufficient for cultivars
consists of a combination of appropriate highly susceptible to downy mildew, fun-
sanitation measures and the use of liquid gicidal control may be necessary. As men-
copper fungicides. Mycostop™, a commer- tioned above, organic growers can use liq-
cial formulation of Streptomyces griseoviri- uid copper, or Bordeaux mix, for control
dis, is registered for use against Phomop- of this disease. Another option for downy
sis. Growers should avoid introducing the mildew management is Trilogy, a commer-
problem into the vineyard by using only cial formulation derived from neem seeds,
pathogen-free propagation material when which is a broad spectrum fungicide and
planting or re-planting. Once the disease miticide.
has appeared, growers should remove as
much infected wood as possible from the Vinifera (Vitis vinifera) varieties are much
vines during pruning. Severely infected more susceptible than American types, and
wood in the basal areas of the cane appears the French hybrids are somewhat suscep-
bleached. Badly infected canes or spurs tible. Several resistant cultivars are listed
will have brown/black patches irregularly in Appendix I.
B
mixed with bleached areas. Debris should
otrytis is be shredded, disked, or plowed into the Botrytis
more of a soil. (Pearson and Goheen, 1988) Botrytis bunch rot (causal organism: Botrytis
problem on cinerea), also known as gray mold, can be
In addition, measures such as avoiding
varieties with tight shaded planting sites, providing good soil a problem throughout the U.S., but is espe-
clusters where mois- drainage and air circulation, and plant- cially troublesome in wet or humid regions.
ture tends to collect. ing rows to take full advantage of sunlight Botrytis is more of a problem on varieties
and wind movement also can help control with tight clusters where moisture tends to
Phomopsis. collect. California research indicates that
the incidence of botrytis bunch rot can be
Downy Mildew greatly reduced by removing leaves around
a ripening cluster, thereby improving sun-
Another disease to which V. vinifera variet-
light and air penetration into the cluster.
ies are highly susceptible is downy mildew,
caused by the fungus Plasmopara viticola. (Bettiga et al., 1989) Although this prac-
Downy mildew is a major disease of grapes tice is labor intensive, and therefore rela-
throughout the eastern United States. It usu- tively costly, it has positive side effects of
ally overwinters as spores in fallen leaves, increased fruit quality, including higher
but it may survive in buds as mycelium malic and total acids, decreased potassium,
in regions with mild winters. Downy mil- increased brix, and better grape color and
dew is favored by all factors that increase wine quality. (Gubler, no date) Reducing
the moisture content of soil, air, and host fertilization, thereby reducing lush vine
plants. Therefore, rain is the principal fac- growth, will also help control botrytis.
tor promoting epidemics. The most serious Bordeaux mixture and sulfur-containing
epidemics of downy mildew occur when a fungicides are generally regarded as inef-
wet winter is followed by a wet spring and a fective control measures against botrytis.
warm summer with intermittent rainstorms New biofungicides are available for man-
every 8 to 15 days. (Pearson and Goheen, agement of botrytis. Trichodex, a formula-
1988) tion of the beneficial fungus Trichoderma
Preventative management practices for harzianum, is now registered in the U.S.
downy mildew consist of draining soils, (call 212-661-9800 for the closest distrib-
reducing the sources of overwintering utor). Serenade, a formulation of Bacillus
innoculum, pruning out the ends of infected subtilis, QST 713 strain, is a second biofun-
shoots, and speeding the drying time of gicide registered for botrytis in grapes; it is
leaves and fruit. However, because none available through AgraQuest in California
Page 10 ATTRA Grapes: Organic Production
11. (call 530-750-0150, or visit www.agraquest. disease to grapevines and probably many
com/prod_ frames.html). other plant species. The blue-green sharp-
shooter (Graphocephala atropunctata) is
Pierce’s Disease the most important vector in coastal areas.
The green sharpshooter (Draeculacephala
Also known as PD, Pierce’s Disease is a
minerva) and the red-headed sharpshooter
xylem-clogging bacterial (Xylella fastidi-
(Carneocephala fulgida) are also present in
osa) infection generally fatal to European
coastal areas but are more important as
(vinifera) grape vines. The chief vector is
vectors of this disease in the Central Val-
the glassy-winged sharpshooter (GWSS).
ley. Other sucking insects, such as grape
Both the GWSS and PD are endemic to
leafhopper (Erythroneura elegantula) are
the southern U.S., which would explain the
not vectors. Management of this disease
native American grape’s resistance to this
mostly revolves around management of the
pest, having co-evolved with the disease
leafhopper vectors, and this information
and the GWSS over tens of thousands of
can be found in the leafhopper section of
years. Some American grape rootstocks are
this publication.
able to transfer resistance to vinivera vari-
eties grafted onto it. A Texas researcher
found that vinifera grapes planted on Mus- Viruses
tang grape, V. mustangensis (synonym, V. Viruses in grapes are managed through
candicans) rootstocks survived for eleven the use of clean planting stock. Viruses
years in an area where PD had killed all will spread from one plant to a neighbor-
other susceptible grape varieties. (Rom- ing plant, but the spread is generally slow.
bough, 2002) Each virus has a unique vector or set of
vectors. The Virus Table on page 12 pro-
The PD-GWSS complex is responsible for
vides information on symptoms, cultivar
the difficulty of growing vinifera grapes in
susceptibility, and modes of transmission.
infested areas and has had heavy impacts
(Rombough, 2002; Flaherty et al., 1992)
on vinifera grape production in New Mex-
ico, Arizona, and California. Chardon-
nay and Pinot Noir are particularly sus- Root Rots
ceptible. Researchers in California and Good soil management, particularly prac-
Georgia have examined applications of tices that promote good soil drainage and
terpene, a naturally occurring botanical avoid the creation of hard pans, will keep
substance, via drip irrigation. Terpenes root rot problems caused by Phytophthora
found in plants are often associated with to a minimum. Standing water, or pro-
plant defense mechanisms. Unfortunately, longed exposure of the trunk, crown or
the trials in California did not show any roots to water, will provide an environ-
significant effect in treating PD. ment on these plant parts that is infection-
friendly.
PD and the GWSS are severe obstacles to
growing European-type (vinifera) grapes in Armillaria root rot is a disease that results
the southern U.S. The PD-GWSS complex from planting vines on ground on which
has recently become a threat to Califor- host plants previously grew, either natural
nia grape growers. Although PD has been oaks or orchards of walnuts or plums. The
present in California since the 1880s, the armillaria exists in old roots of these crops
strong-flying and voracious feeding glassy- that are still in the soil. When planting a
winged sharpshooter was found in Ventura, new vineyard in such an area, it is impor-
California, only in 1990 and has become tant that the new vines are not overwatered,
the primary, though certainly not the only, and that they be planted into healthy, well-
vector of the pathogen. The presence of drained soil that has good biological activ-
the GWSS in California has resulted in ity, which will allow beneficial organisms
the rapid spread and transmission of the to compete with the armillaria fungus.
www.attra.ncat.org ATTRA Page 11
12. Virus Table
Disease Name Vector/mode of spread Cultivars Attacked Symptoms/Comments
Grape Leafroll Nursery stock Vinifera—American At harvest/leaf fall, infected red-grape vines will
and possibly by mealy- rootstocks don’t show have red leaves with major veins still green.
bugs. symptoms. White grape cultivars will turn yellow with major
veins still green.
Corky Bark Nursery stock, no known Can exist in many vinifera Grafted scions decline or die due to graft union
vectors cultivars without symp- incompatibility, rootstocks may
toms, which appear only survive, even be symptomless. Spread
after infected bud grafted only by nursery materials in US.
onto phylloxera-resistant
rootstock
Rupestris Stem Pitting Nursery stock, no known High incidence of this Can cause a slow decline, or can be fatal if grafted
vectors virus in Vinifera cultivars onto rootstock 3309, but Canada now allows mate-
and French hybrids are rial with this virus as a “virus without consequence”.
susceptible.
Fanleaf Degeneration Nursery stock (infected Vinifera cultivars Seldom fatal, but symptoms can take
rootstock, buds or cut- several forms: fanleaf deformation, vein banding,
tings), and Dagger nema- and yellow mosaic.
tode is vector
Peach Rosette Mosaic Nursery stock, and American cultivars Curly dock, Carolina horsenettle and
Virus (PRMV) Dagger nematode Concord, Catawba and dandelion are virus hosts. Grape pommace should
is vector Niagara are susceptible, be properly composted so seeds, which contain
Delaware less so. virus, do not germinate and allow feeding by nema-
tode vectors.
Tomato Ringspot and Nursery stock, and Dag- French hybrid cultivars, Plantain, chickweed, dandelion, beans,
Tobacco Ringspot ger nematode particularly blue-fruited and other plants are virus hosts. Grape pommace
is vector cultivars, are susceptible. should be properly composted so seeds, which con-
tain virus, do not germinate and allow feeding by
nematode vectors.
Geographical Considerations about providing beneficial habitat can be
found in ATTRA’s Farmscaping to Enhance
and Insect and Mite Biological Control.
Management
Wherever grapes are grown, there will be In the West, mites, leafhoppers, and lea-
insect pests. Existing with each pest, how- frollers are likely to be the most trouble-
ever, is a whole complex of natural controls, some arthropod pests, and all of these are
including parasites (other insects), predators indirect pests; i.e., they do not directly
(insects, birds, bats, mice, etc.), and dis- attack the fruit. In general, indirect pests
eases (fungi, bacteria, viruses). One of the can be tolerated in higher numbers than
grower’s jobs is to develop a viticulture eco- direct pests, allowing more time for
system that takes advantage of and encour- naturally occurring or purchased biocontrol
ages these natural controls, while also feed- agents to exert an acceptable level of control.
ing the soil and supporting plant health.
Although the glassy-winged sharpshooter
Providing habitat for beneficial organisms is
(GWSS, a leafhopper) is considered an indi-
a sustainable approach to managing insect
pests, but it must be tempered with aware- rect pest, it has recently emerged as a major
ness of how the presence and management problem in California vineyards because it
of habitat influences field operations, as well vectors Pierce’s disease. The GWSS/Pierce’s
as other factors, such as incidence of harm- Disease complex has long been an obstacle to
ful insects and diseases. More information production of vinifera grapes in the South.
Page 12 ATTRA Grapes: Organic Production
14. Commercial Monitoring/ erythroneura, egg parasites) can be achieved
if habitat for non-pest leafhopper species—
Disruption Pheromone Systems especially blackberry bushes and French
Timely use of Bacillus thuringiensis (Bt) can prune trees—is maintained near the vine-
suppress populations of the grape berry yard. The bushes and trees attract related
moth. Use of pheromone traps can aid the Erythroneura species of leafhoppers, provi-
grower in timing Bt applications. The Bt ding an important food source for the para-
should be applied as the fi rst instar larvae sitic wasp. However, maintaining diverse
are hatching out of eggs. habitat in this manner may confl ict with
management for the glassy-winged sharps-
Pheromone Chart hooter (see below).
Type of System Company Contact Information
Clean cultivation in and around the vine-
Pacific Biocontrol yard can help reduce leafhopper popula-
Mating Disruption,
14615 NE 13 St, Suite A tions, because the adults overwinter in shel-
Vancouver, WA 98685 ters provided by weeds in these areas. If
rope dispenser
www.pacificbiocontrol.com
leafhoppers are a problem, and the grower
800-999-8805
wants to use alley cover crops, then selec-
3M Canada ting those covercrops least attractive to
Mating Disruption, www.3m.com/intl/CA/English/centres/mfg_ leafhoppers is an option. Organic growers
sprayable industrial/ag/spray_canada/grape_
main.html can use insecticidal soaps and the botani-
cal insecticide sabadilla to control leafhop-
Gempler’s
pers. Soap sprays are only effective if they
1210 Fourier Dr, Suite 150,
Monitoring Traps Madison, WI 53717 cover the leafhopper; i.e., if there is no resi-
www.gemplers.com/items/R01023.asp dual effect from soap left on a plant surface.
800-382-8473 PyGanic, a formulation of pyrethrins, is an
effective control of leafhoppers and also
listed by OMRI.
Leafhoppers
Surround™, a kaolin clay-based insect
Grape leafhoppers, Erythroneura species, repellent, is effective against leafhoppers,
also can be a serious problem throughout
leafrollers, and the glassy-winged sharpshoo-
the United States, but these pests more con-
ter. It is accepted by the Organic Materials
sistently trouble West Coast vineyards.
Review Institute for use in organic produc-
Research in California indicates that biolo- tion. For leafhoppers and related insects, it
gical control of grape leafhoppers by a tiny seems to act as a deterrent to locating host
parasitoid wasp (Anagrus epos and Anagrus plants, as well as deterring feeding and egg-
laying. For additional information, contact:
John Mosko
Marketing Manager Crop Protectants
Engelhard Corporation
732-205-7140
john.mosko@engelhard.com
www.surround.engelhard.com
More information about kaolin clay-based
management options for the GWSS is avai-
lable in the ATTRA publication Kaolin Clay
for Management of Glassy-winged Sharpshooter
in Grapes.
Photo by Rex Dufour, NCAT
According to Tom Piper, former manager
Some vineyards are now using an innovative strategy of planting dwarf grasses in of Fetzer’s organic vineyards, leafhopper
the alleys in order to manage excessive vigor of some varieties. populations are proportional to the vigor
Page 14 ATTRA Grapes: Organic Production
15. of the vine. He keeps close watch on both herbicides, and (2) cover crop biomass was
water and nitrogen inputs and tries to keep cut and left in row middles. If sulfur dust
the vines just vigorous enough to make a (used for disease control) was used sparin-
good crop, but not so vigorous as to attract gly in late spring and early summer, the pre-
leafhoppers. If leafhopper populations get sence of these cover crops increased early
out of hand, Piper uses PyGanic. season activity of predatory mites, resulting
in reduced spider mite infestations. Simi-
The glassy winged sharp shooter, Homa- larly, where leafhopper numbers were not
lodisca coagulata, emerged in the 1990s very low and cover crops were properly main-
as a major pest of grapes in California. tained through early July, the presence of
The GWSS feeds on stems and leaves of a cover crops resulted in reduced infestations
wide range of plants and efficiently vectors of leafhoppers. These reductions were attri-
Pierce’s Disease (PD), a xylem-clogging bac- buted to enhanced activity of certain groups
terial infection generally fatal to grape vines. of spiders that consistently attained higher
Although PD has been present in California densities in the presence of cover crops,
since the 1880s, the strong-flying and vora- compared to the clean-cultivated systems.
cious feeding GWSS has become the primary Leafhoppers also used the cover crops as
vector of the pathogen. PD and the GWSS non-host crops, which may have resulted in
are important obstacles to growing Euro- less time spent on vines.
pean-type (vinifera) grapes in the southern
U.S. Riparian areas in the West have a wide For more information on this study, contact:
variety of plants that are hosts to the GWSS Frank G. Zalom
and can be leafhopper corridors. Monitoring Extension Entomologist
should be directed to areas of the vineyard Department of Entomology
closest to riparian zones. University of California
Davis, CA 95616
Research in California has shown that, if 916-752-8350
properly managed, winter annual legume- 916-752-6004 FAX
grass cover crops—such as a vetch and oats fgzalom@ucdavis.edu
mix—can reduce reliance on insecticides
and miticides to control leafhoppers and spi-
der mites in vineyards. This is in addition Mites
to the soil-improving and weed-suppressive Various mite species cause problems on
benefits of cover crops. This research exami- grapes throughout the United States. Proper
ned two cover crop systems: (1) cover crop irrigation, dust reduction along roadways,
biomass was cut and placed on row berms as and other practices that conserve and aug-
a dry mulch to suppress weeds and reduce ment natural enemies (including predatory
Photos by Rex Dufour, NCAT
Alternate disking of alleyways decreases dust and conserves Every other row in this vineyard is planted to an oats-bell bean
beneficials. covercrop.
www.attra.ncat.org ATTRA Page 15
16. mites (Metaseiulus, Typhlodromus), sixspot- Trilogy™ are registered for use on spider
ted thrips (Scolothrips sexmaculatus), and mites, but like soap sprays, can negatively
other generalist predators) can help reduce affect wine quality if used too close to har-
spider mite problems. vest. (Thrupp, 2003) Although sulfur dusts
or pyrethrum can be used against mites,
In the West, the three major spider mite
they are not commonly used since they
pests on wine grapes are Willamette mite,
can be disruptive to beneficial mites and
Eotetranychus willamettei (McGregor),
other natural enemies of the pest mites, as
twospotted mite, Tetranychus urticae
well as natural enemies (such as the wasp
(McGregor), and Pacific mite, Tetranychus
Anagrus epos) of leafhoppers.
pacificus. The most important mite preven-
tion practice is dust control. Heat spikes in The beneficial predatory mite Metaseiulus
the weather, combined with dust-stressed occidentalis is effective in controlling spi-
plants, often result in a mite outbreak. Dust der mites in California. Another preda-
can be managed several ways: improving tory mite, Typhlodromus pyri, is effective
road surface from dirt to rock or gravel; against spider mites in locations as wide-
using water, straw, or dust-suppressant spread as New Zealand and Oregon. These
M
compounds to prevent dust; reducing driv- beneficial mites can be purchased from
aintaining ing speed; and disking only every other several insectaries in California and else-
a ground alleyway—vehicle traffic is then routed where. Maintaining a ground cover on the
cover on on non-disked rows to provide a dust-free vineyard floor is advantageous to predatory
the vineyard floor pathway for machinery performing agricul- mites and various beneficial insects such
tural operations. as green lacewings, sixspotted thrips, and
is advantageous to
Growers in New Zealand use vegetable oil minute pirate bugs.
predatory mites.
or fi sh oil as dormant sprays in combina-
tion with release of predatory mites. (Welte, Grape phylloxera
2000) Soap sprays also can be effective The grape phylloxera (Daktulosphaira
against mites, but thorough spray cover- vitifoliae) is a very small, aphid-like insect
age is essential, since the mites reside and that is very difficult to see with the unaided
feed primarily on the underside of the leaf eye. It has two forms—an aerial, leaf-
surface. Soap spray should only be used galling form and a subterranean root-
early in the season because of the possi- feeding form. Historically, the root form
bility of altering the taste of the grape or has been the more economically damaging
the wine. Neem-based products such as of the two.
Organic Management – Phlumoxes Phylloxera
A two-year field study by UC Davis researchers found that in San Joaquin (own-rooted) were on AXR#1 rootstock. No
soil management practices can significantly influence the significant differences between OMVs and CMVs were found
amount of root damage resulting from phylloxera-induced for single year comparisons of percent organic matter, total
fungal infections. The researchers found that per-unit root nitrogen, nitrate, and percent sand/silt/clay. The pooled data
populations of phylloxera did not significantly differ between for the two years tell a slightly different story: OMVs’ soil had
organically managed vineyards (OMV) and conventionally a significantly higher (by .5 percent) percentage of organic
managed vineyards (CMV), when both were infested with matter (percent OM) than CMVs soil, and over all vineyards
phylloxera. However, root samples from OMVs displayed and all years there was a weak but significant inverse corre-
significantly less root necrosis (9 percent) caused by fungal lation between root necrosis and soil percentage OM. Cul-
pathogens than did samples from CMVs (31 percent). Organic tures of the necrotic root tissue also revealed some interest-
vineyard management is characterized by use of cover crops ing differences: significantly higher levels of the beneficial
and composts and no synthetic fertilizers or pesticides. fungus Trichoderma were found in OMVs in 1997 (but not in
This study sampled four OMVs in Sonoma, Napa, and Men- 1998), and significantly higher levels of pathogens Fusarium
docino counties. Eight CMVs were initially sampled in these oxysporum and Cylindrocarpon species were found in CMVs
counties and San Joaquin County. This was later reduced to in 1998 (but not in 1997).
five CMVs for practical reasons. All vines except for those (Lotter et al., 1999)
Page 16 ATTRA Grapes: Organic Production