Gary S. Bender

Effects of clonal rootstocks on 'Hass' avocado yield components, alternate bearing, and nutrition

Summary Growth, yield, and leaf nutrient concentrations were measured in ‘Hass’ avocado (Persea americana Mill.) trees grown on one of ten clonally-propagated rootstocks (‘Borchard’, ‘D9’, ‘Duke 7’, G1033, G755A, G755B, G755C, ‘Thomas’, ‘Topa Topa’, or ‘Toro Canyon’) over a 10-year period in southern California. After 10 years, trees on ‘Borchard’ were larger than trees on all other rootstocks. Trees on all rootstocks displayed an alternate-bearing pattern, typical of avocado. Alternate-bearing was most pronounced in trees grafted onto ‘Topa Topa’ and ‘Toro Canyon’. Rootstocks in the G755 series had the lowest alternate-bearing index, but also had the lowest yields.Trees on ‘Duke 7’ and ‘Borchard’ had the highest cumulative yields, and trees on G755A, G755B, and G755C had the lowest yields. Differences in yield were due to differences in the number of fruit per tree, not individual fruit weight. When yield was evaluated in terms of canopy efficiency (kg fruit m–3), no rootstock outperformed ‘Duke 7’, the industry standard rootstock. Leaf concentrations of all nutrients examined (N, P, K, Ca, Mg, S, Zn, Cl, Mn, B, Fe, and Cu) were within, or close to the recommended ranges. P, Ca, and S were higher, and Fe was lower in high-yielding years in all rootstocks.

Evaluation of Insecticides, Entomopathogenic Nematodes, and Physical Soil Barriers for Control of Diaprepes abbreviatus (Coleoptera: Curculionidae) in Citrus

ABSTRACT The Diaprepes root weevil, Diaprepes abbreviatus L. (Coleoptera: Curculionidae), was discovered as the cause of early decline and death of citrus trees and ornamental plants along coastal Orange and Los Angeles Counties in 2005 and San Diego County in 2006. We established trials to evaluate the effectiveness of two tactics to manage life stages of Diaprepes root weevil that are found in the soil. The first tactic was soil applications of the pesticides bifenthrin or imidacloprid, with and without entomopathogenic nematodes, to kill larvae. The second tactic was attempting to block adult emergence from the soil using a thick wood-chip mulch layer, a small-meshed landscape fabric, and a dry soil barrier (created by subirrigation). We found that soil treatments with the two insecticides (bifenthrin and imidacloprid) at maximum label rates with and without Steinernema riobrave Cabanillas et al. at 5 million nematodes per tree significantly reduced numbers of soil-borne Diaprepes root weevil larvae in one trial compared with the control. Another entomopathogenic nematode, Heterorhabditis indica Poinar et al. applied in wax moth Galleria mellonella L. cadavers at 86 wax moth cadavers per tree was not effective. Adult emergence was reduced by almost 100% when the landscape fabric was kept intact (2009), but emergence occurred in 2010 when the fabric was torn by grove operations (60% reduction). Adult emergence was reduced to ≈70% compared with the control in the subirrigation treatment in 2009 when the summer was hot and dry, but emergence occurred in 2010 during periodic rains toward the end of summer. The mulch treatment kept the soil moist in between irrigations resulting in greater adult emergence rates compared with controls during 2009 and 2010. Health ratings of the trees were taken following several years of physical barrier treatments, and trees treated with the landscape fabric were significantly healthier (mean rating 0.9, scale 0 = healthy to 5 = dead) than those in the other treatments (mean rating of 3.6, 4.0, and 2.5 for control, mulch and subirrigation, respectively). Of the physical barrier methods studied, landscape fabric is most effective in reducing Diaprepes root weevil emergence, increases plant health, and is long lasting, but it is the most costly to install and can be damaged during harvest.

Seasonal Adult Emergence Patterns and Soil Larval Distribution of Diaprepes abbreviatus (Coleoptera: Curculionidae) in Southern California

Abstract  Diaprepes root weevil, Diaprepes abbreviatus L., was first found in southern California in 2005 and has since spread to citrus groves in a small area of southern California. To develop pest management programs for this pest, its seasonal abundance and distribution of immature stages (including teneral adults) in the soil were investigated. The seasonal abundance of D. abbreviatus adults was monitored with modified Tedders traps. Emergence of D. abbreviatus adults from soil pupation chambers occurred throughout most of the year, and peak emergence occurred from July to October. However, there was no secondary annual peak emergence over the 4 yr of study in California as has been observed in Florida, suggesting diaprepes root weevil is univoltine in southern Californias cooler climate. Annual emergence cycles mirrored patterns of air temperature rather than rainfall. Seasonal abundance and the impact of climate on range expansion of diaprepes root weevil are discussed. The effect of the number and arrangement of traps on the number of adult D. abbreviatus caught was also investigated, and we determined that they did not have an effect on adult D. abbreviatus trap catch data. Immature life stages in the soil occurred under the tree drip line within the top 30.5 cm of soil and horizontally up to 96.5 cm from the tree trunk. The majority were observed between 17.8 and 45.7 cm from the crown of the trees, which is in the area of Tedders trap placement.