Gary S. Bender scite author profile

Optimizing ‘Hass’ avocado (Persea americana Mill.) tree nutrient status is essential for maximizing productivity. Leaf nutrient analysis is used to guide avocado fertilization to maintain tree nutrition. The goal of this research was to identify a ‘Hass’ avocado tissue with nutrient concentrations predictive of yields greater than 40 kg of fruit per tree. This threshold was specified to assist the California avocado industry to increase yields to ≈11,200 kg·ha−1. Nutrient concentrations of cauliflower stage inflorescences (CSI) collected in March proved better predictors of yield than inflorescences collected at full bloom (FBI) in April, fruit pedicels (FP) collected at five different stages of avocado tree phenology from the end of fruit set in June through April the following spring when mature fruit enter a second period of exponential growth, or 6-month-old spring flush leaves (LF) from nonbearing vegetative shoots collected in September (California avocado industry standard). For CSI tissue, concentrations of seven nutrients, nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg), sulfur (S), zinc (Zn), and copper (Cu) were predictive of trees producing greater than 40 kg of fruit annually. Conditional quantile sampling and frequency analysis were used to identify optimum nutrient concentration ranges (ONCR) for each nutrient. Optimum ratios between nutrient concentrations and yields greater than 40 kg per tree were also derived. The high nutrient concentrations characterizing CSI tissue suggest current fertilization practices (timing or amounts) might be causing nutrient imbalances at this stage of avocado tree phenology that are limiting productivity, a possibility that warrants further investigation. Because CSI samples can be collected 4–6 weeks before full bloom, nutritional problems can be addressed before they affect flower retention and fruit set to increase current crop yield, fruit size, and quality. Thus, CSI nutrient analysis warrants further research as a potential supplemental or alternative tool for diagnosing ‘Hass’ avocado tree nutrient status and increasing yield.

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

Bender¹,

Bates²,

Bethke³

et al. 2014

j econ entomol

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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.

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Three New Avocado Rootstock Cultivars Tolerant to Phytophthora Root Rot: ‘Zentmyer’, ‘Uzi’, and ‘Steddom’

Menge¹,

Douhan²,

McKee³

et al. 2012

horts

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

Bates¹,

Bethke²,

Bender³

et al. 2015

Journal of Entomological Science

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Gary S. Bender

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

Optimal Nutrient Concentration Ranges of ‘Hass’ Avocado Cauliflower Stage Inflorescences—Potential Diagnostic Tool to Optimize Tree Nutrient Status and Increase Yield

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

Three New Avocado Rootstock Cultivars Tolerant to Phytophthora Root Rot: ‘Zentmyer’, ‘Uzi’, and ‘Steddom’

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

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