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How to Manage Pests

UC Pest Management Guidelines


Apple

Nematodes

Scientific Names:
Root lesion: Pratylenchus vulnus and P. penetrans
Root knot: Meloidogyne incognita, M. hapla, M. javanica, and M. arenaria
Dagger: Xiphinema americanum

(Reviewed 8/06, updated 3/09)

In this Guideline:


DESCRIPTION OF THE PESTS

Plant parasitic nematodes are microscopic roundworms that feed on plant roots. They live in soil and plant tissues. Of the many genera of plant parasitic nematodes detected in soils from apple orchards, two species of root lesion nematode, four species of root knot and the dagger nematode are believed to be the most economically important ones in California. Both species of root lesion nematode, Pratylenchus vulnus and P. penetrans are widely distributed throughout the state. Meloidogyne hapla is found throughout the state in association with crops such as alfalfa. Meloidogyne incognita, M. javanica, and M. arenaria occur throughout the warmer apple growing regions, with M. incognita having the most common occurrence. Dagger nematodes occur throughout the state, but are believed to be more widespread in the northern part.

DAMAGE

Root lesion nematodes penetrate into roots and cause damage by feeding and migrating through the cortical tissues. Interaction of root lesion nematodes with other soilborne organisms can increase injury to roots. They are occasionally associated with the apple replant disease, which is characterized by poor growth of young trees after transplanting. Feeding by root knot nematodes can impair root functions such as uptake of nutrients and water. Dagger nematodes feed from outside the roots, but can reach the vascular tissues with their long stylet. They are capable of suppressing growth of young trees, but the major problem caused by them is transmission of tomato ringspot virus, which causes apple union necrosis and decline, especially on the variety/rootstock combination Red Delicious and M106 rootstock.

SYMPTOMS

The symptoms described below are indicative of a nematode problem, but are not diagnostic as they could result from other causes as well. Damaged trees generally occur in a circular area within the orchard. Aboveground symptoms of nematode damage are lack of vigor, twig dieback, and decline in growth and yield. Infestation of older trees also results in chlorosis or yellowing of leaves, orange bark, fruit sunburn or sunscald typical in green varieties, and small fruit. Heavy infestation on young trees may result in stunting, and sometimes death. Nematode infestations may occur without inducing any aboveground symptoms.

Below ground symptoms include poor growth of feeder roots or main roots and soil adhering to roots. Root knot nematode infestation will produce characteristic swelling of roots, called galls.

FIELD EVALUATION

To make management decisions, it is important to know the nematode species present and their population densities. If a previous orchard or crop had problems caused by the same species of nematode that are listed as pests of apple, population levels may be high enough to cause damage to young trees. If nematode species have not previously been identified, soil samples should be taken and sent to a diagnostic laboratory for identification.

Soil samples should be taken from within the root zone (6- to 36-inch depth). Take subsamples from the frequently wetted zones at the edge of the tree canopy, and include some feeder roots when possible. Divide the field into sampling blocks of not more than 5 acres each that represent cropping history, crop injury, or soil texture. Take several subsamples randomly from a block, mix them thoroughly and make a composite sample of about 1 quart (1 liter) for each block. Place the samples in separate plastic bags, seal them, and place a label on the outside with your name, address, location, and the current/previous crop and the crop you intend to grow. (See Integrated Pest Management for Apples and Pears, UC/ANR Publication 3340, for more details.) Keep samples cool (do not freeze), and transport as soon as possible to a diagnostic laboratory. Request a species identification if either root lesion or dagger nematodes are found. Contact your farm advisor for more details about sampling, to help you find a laboratory for extracting and identifying nematodes, and for help in interpreting sample results.

MANAGEMENT

Cultural practices. Remove old roots and plant green manure cover crops resistant to root lesion nematodes (such as the oat cultivar Saia) for 1 to 2 years or fallow the site for 4 years. If Pratylenchus vulnus is present, maintain a poor host for this nematode, such as tall fescue, red fescue, or perennial ryegrass as orchard ground cover. These crops are hosts for Pratylenchus penetrans and should not be used if this species of root lesion nematode is present. Use certified rootstocks or seedlings to establish new orchards. Improve soil tilth and drainage and control other pests. Proper irrigation and fertilizer application will also reduce stress on trees.

Rootstock selection. Most standard rootstocks and some dwarfing rootstocks are believed to have some tolerance to P. penetrans, the root lesion nematode species that is frequently found in apple orchard soils in northern California. However, the dwarfing rootstocks are considered to be susceptible to P. vulnus, which is common in the orchard soils of the San Joaquin Valley.

Always buy trees from California nurseries, which are certified nematode-free; do not purchase trees from out-of-state nurseries unless they are certified nematode-free.

Treatment decisions. Trees planted in infested orchard sites that have been fumigated generally have improved growth and yields compared to those on nonfumigated sites.

Common name   R.E.I.+ P.H.I.+

(trade name)

Amount to Use

(hours)

(days)


  Calculate impact of pesticide on air quality
When choosing a pesticide, consider information relating to environmental quality. Not all registered pesticides are listed. Always read label of product being used.
 
PREPLANT
A. METAM-SODIUM* 75 gal 48 0
  (Vapam)
  COMMENTS: Metam-sodium can effectively control nematodes if applied properly, but it is not usually applied properly, resulting in poor penetration of plant roots and difficulty in getting it to penetrate 4–5 feet down from the surface. Before applying this material, thoroughly cultivate the area to be treated to break up clods and deeply loosen the soil. After cultivation and about 1 week before treatment, preirrigate the field with 6–8 acre-inches of water in flood irrigation in basins. After treatment, do not plant for 30 days, or 60 days if soil is high in organic matter or cold (below 50°F). Fumigants such as metam sodium are a source of volatile organic compounds (VOCs) but are minimally reactive with other air contaminants that form ozone. Fumigate only as a last resort when other management strategies have not been successful or are not available.
   
B. 1,3-DICHLOROPROPENE*
  (Telone II) Label rates 7 days 0
  COMMENTS: Fumigants such as metam sodium are a source of volatile organic compounds (VOCs) but are minimally reactive with other air contaminants that form ozone. Fumigate only as a last resort when other management strategies have not been successful or are not available.
   
POSTPLANT
A. FENAMIPHOS* 2.5 gal 48 72
  (Nemacur 3)    
  COMMENTS: Spray solution should be directed toward the base of the tree, where it will not come in contact with any leaf surface. Irrigate immediately with sprinklers or microsprinklers. Read product use and chemigation booklet.
   
+ Restricted entry interval (R.E.I.) is the number of hours (unless otherwise noted) from treatment until the treated area can be safely entered without protective clothing. Preharvest interval (P.H.I.) is the number of days from treatment to harvest. In some cases the REI exceeds the PHI. The longer of two intervals is the minimum time that must elapse before harvest.
* Permit required from county agricultural commissioner for purchase or use.

[Precautions]

PUBLICATION

[UC Peer Reviewed]

UC IPM Pest Management Guidelines: Apple
UC ANR Publication 3432
Nematodes
B. B. Westerdahl, Nematology, UC Davis
Acknowledgment for contributions to Nematodes:
U. C. Kodira, Plant Pathology, UC Davis

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