An overview of bacterial spot disease and management in peaches
Transcription
An overview of bacterial spot disease and management in peaches
An Overview of Bacterial Spot Disease and Management in Peaches Three bacterial diseases we deal with: they’re all different! • Fire blight – flower surface, otherwise mostly internal, ooze • Bacterial canker – favored by cool weather, flowers, cankers especially taking out young trees • Bacterial spot – favored by warm weather, leaf spots and fruit infection significant George W. Sundin Michigan State University Bacterial Spot • Causal agent -- Xanthomonas campestris (arboricola) pv. pruni • Symptoms -- spots on leaves, fruit; cankers form on new twigs Bacterial Spot Life Cycle Winter Overwinter in twigs, terminal buds Spring Black tip; primary leaf and fruit infections brownish-red bark, moist appearance Early infections Late infections 1 Bacterial Spot Life Cycle Disease cycle Fruit susceptibility is highest during 3-wk period after shuck split • Tends to overwinter in twigs infected late in the summer. • In spring as temperature warms, cankers become visible and bacterial ooze is formed. • Bacteria spread by heavy dew, wind-driven rain. Bacteria enter through somata, lenticels, and wounds. Wounding can be more frequent at sandy sites and sites adjacent to roads. • Bacteria then can multiply in infected tissue and serve as inoculum throughout the season. Bacterial Spot -- Inoculum Considerations There is enough inoculum from a single leaf to infect all of the fruit on a tree, assuming the bacteria could be splashed to all fruit One objective of early copper sprays (bud break through shuck split) is to prevent early infections Water congestion is required for leaf infection Spring Summer Black tip; primary leaf and fruit infections Leaf and fruit spot, defoliation Table 4. Relative bacterial spot disease ratings for peach and nectarine varieties, SW Michigan Research and Extension Center (Bill Shane). Ra#ng Li$le to no leaf symptoms Up to 10% leaf area affected Peach Nectarine Sweet Breeze, Veteran, Madison, Glenglo, Nectafest PF-‐25, PF35-‐007, Brightstar, McKay, Risingstar, Gloria Messina, Blushingstar*, Harrow Diamond, Carene, Emeraude*, Sunhaven, PF-‐9A-‐007, Richhaven, Catherina#, PF11 Nectarine Redstar, Ernies Choice, Loring, Beaumont, Allstar, Canadian Harmony, Contender, Halehaven, Glowingstar, July Rose*, Flameprince, Victoria, Glohaven, Virgil#, 10 to 25% leaf PF-‐8 Ball, Starfire, Autumn Star, PF23, Desiree, Fantasia, Zephyr*, area Summerfest, PF 5D Big, Early Redhaven, Silver Gem* affected, PF-‐27A, Flavrburst, Newhaven, PF-‐7A some leaf Freestone, PF28-‐007, Vinegold#, PF-‐24C drop Coldhardy, Earlystar, PF11 Peach, Cresthaven, Coralstar 25% or more PF Early 8 Ball, Crimson Rocket Easternglo, Ambre leaf area affected, significant defoliabon * = white flesh, # = non-melting flesh canning type. PeenTo Tangos (NJF16), Saturn BuenOs II (NJF15) BuenOs I (NJF18) Tangos II (NJF17) Ratings July 15, 2014 2 Copper Use for Bacterial Spot Management NC STATE UNIVERSITY Applications of Copper Sprays 2.0-2.5 lb Cu/A 1.0-2.0 lb Cu/A 1.0 lb Cu/A • Copper is only toxic in its “free ion” state [Cu2+] – Toxicity to bacteria and the tree • Quantity of free ions is determined by the pH of the solution – Acidic conditions = more free ions available • Cool temps (50-63 F), slow-drying conditions can increase phytoxicity • To reduce the risk of accumulating copper on trees to levels that could become phytotoxic, consecutive applications should not be made during extended dry conditions NC STATE UNIVERSITY Applications of Copper Sprays 0.50 lb Cu/A 0.10-0.25 lb Cu/A (+ Mycoshield?) Early Bud-break Pink-Bud Blossoms Opening DFR – 01/04 Copper Use for Bacterial Spot Management • Bottom line from Dave Ritchie, NC State: • “When peach foliage is present, there is no rate of copper that has adequate activity against bacterial spot which will not cause some leaf injury.” Petal-fall Shuck-split/Shuck-off Unacceptable Copper Phytotoxicity May Begin to Occur DFR – 01/04 Bacterial Spot Control • Copper -- metal ion, broad spectrum effects, resistance possibilities • Oxytetracycline -- antibiotic, bacteriostatic, resistance possibilities – Mycoshield, Flame Out (not less than 0.75 lb/ A) – Start at late shuck split and continue on a 7-10 day schedule for 3-4 wks Bacterial Spot Control • Copper -- metal ion, broad spectrum effects, resistance possibilities • Oxytetracycline -- antibiotic, bacteriostatic, resistance possibilities • Dodine (Syllit) -- broad spectrum effects – light to moderate pressure; some phytotoxicity • Ziram -- zinc ion, broad spectrum effects • HOST RESISTANCE – Avoid highly-susceptible varieties – Reduce plantings of highly-susceptible varieties adjacent to more resistant varieties 3 What are conditions for bacterial spot infections? What are conditions are needed for bacterial spot infections? Inoculate with bacteria Inoculate leaves with bacteria à At 76 F see symptoms in 10 to 14 days Precondition leaves with 48 hr high humidity à At 86 F see symptoms in 3 days Post inoculation wet period 48 hr preinoculation high humidity Temp 76 86 Hours wet post inoc. 0 16 24 48 1% 2% 2% 7% 5% 5% 12% 40% Need 72 to 96 hr total high humidity / wet hr (pre + post) to see significant disease increase. Zehr, E.I., Shepard, D. P. and Bridges, W. C. Jr. 1996. Bacterial spot of peach as influenced by water congestion, leaf wetness duration, and temperature. Plant Dis. 80:339-341 Bacterial Spot Management -- SE, USA Experiences Zehr, E.I., Shepard, D. P. and Bridges, W. C. Jr. 1996. Bacterial spot of peach as influenced by water congestion, leaf wetness duration, and temperature. Plant Dis. 80:339-341 Bacterial Spot Control, Ritchie Program • Trt 1 -- Kocide 2000 • Start management early • Cover trees with a “blanket of copper” – Use a high rate (4-5 lb formulated Copper, 2 lb Cu) • • • • Leaf surface symptoms (%) measured 15 days later 7-10 day interval -- use a half-rate copper 1-5% bloom -- half-rate copper Petal fall -- 1/4th-rate copper Look for signs of copper injury before EACH application – 3 Mar (budswell) -- 2.0 lbs metallic Cu/A – 17 Mar (40% bloom, 1/2” leaf growth) -- 1.2 lbs – 25 Mar (10% petal fall, 1” leaf growth) -- 0.5 lbs – 30 Mar (petal fall) -- 0.5 lbs – 7 Apr (1% shuck split) -- 0.2 lbs + 0.75 lbs Mycoshield – 15 Apr (shucks off) -- 0.13 lbs + 0.75 lbs Mycoshield – 27 Apr, 5 May -- 0.094 lbs – 25 May, 8 Jun, 15 Jun -- 0.047 lbs – Will probably see some, as long as it’s not extensive, is safe for next application Source: Dave Ritchie, NC State Univ. Bacterial Spot Control, Ritchie Program Diseased Fruit Diseased Leaves Copper Injury Control 63% a 58% a 0.0 a Copper Program 17% b 10% b 3.0 b Bacterial Spot Management -- SE, USA Experiences • Shuck split -- Mycoshield or low rate of TennCop (5-6 oz/acre) -- 7-10 day schedule • Shuck split applications based on wet weather • Bacterial spot weather -- similar to brown rot weather; needs rainfall, 90+% RH • Period between shuck split and pit hardening -fruit is most susceptible • After pit hardening, fruit is less susceptible, but not immune 3.0 = shothole and 6-10% defoliation 4 Cautionary note for in-season use of copper for bacterial spot suppression on peaches and nectarines Do fall applications of copper provide some bacterial spot control the following season? Rutgers study (N. Lalancette, Rutgers) Applied 7 applications of Tenn-Cop 5E (0.5 oz copper/acre) in 200 gal water per acre, Oct 1 to Nov 21st Growers who opt for use of copper need to be aware that the safety margin is relatively small. Copper is toxic when the dissolved form penetrates into plant tissue. In general, growers should avoid the use of spray additives such as spray oils, foliar nutrients, and surfactants such as organosilicants with penetrating characteristics when applying coppers. Careful calibration and adjustment of spray equipment is needed to make sure applications do not result in excessively high deposits of copper in some areas of the trees. Rated fruit infections next season Fall copper applications seem to have little effect on bacterial spot severity the following year. (modified from summary by David Ritchie, North Carolina State University) MI Peach Sponsors MI State Horticultural Society 5