Your search keyword '"ALMOND growing"' showing total 144 results

1. The Tree-Crop Remote Sensing of Evapotranspiration Experiment (T-REX): A Science-Based Path for Sustainable Water Management and Climate Resilience.

Author

Bambach, Nicolas, Knipper, Kyle, McElrone, Andrew J., Nocco, Mallika, Torres-Rua, Alfonso, Kustas, William, Anderson, Martha, Castro, Sebastian, Edwards, Erica, Duran-Gomez, Moises, Gal, Andrew, Tolentino, Peter, Wright, Ian, Roby, Matthew, Feng Gao, Alfieri, Joseph, Prueger, John, Hipps, Lawrence, and Saa, Sebastian

Subjects

*WATER management, *WATER shortages, *REMOTE sensing, *ALMOND growing, *GREENHOUSE gases, *IRRIGATION scheduling, *EVAPOTRANSPIRATION

Abstract

Water scarcity threatens agriculture in California. During the last two decades, historically severe droughts have led to severe water shortages. Under projected changes in climate, droughts of greater severity and duration will exacerbate this situation. California produces 80% of the world's almonds, which require consistent water supplies for irrigation. Almonds are the most commonly grown crop in California, covering nearly 1.4 million acres over about 8,000 farms. In response to these challenges, almond growers are considering a myriad of management strategies to save water and mitigate climate change. The Tree-Crop Remote Sensing of Evapotranspiration Experiment (T-REX) aims to identify water and orchard management opportunities to maximize water use efficiency and carbon sequestration in almonds and other woody perennial tree crops. The project combines satellite, uncrewed aerial vehicles, and proximal sensing technologies to retrieve key variables used to model surface fluxes and biophysical properties. We aim to advance our understanding of water management and cultural practices on water-carbon relationships in tree-perennial agroecosystems. Through new methods, such as evapotranspiration-based irrigation scheduling, even a modest 10% decrease in almond orchard irrigation across the state equates to about a third of the water in Lake Oroville, California's second-largest reservoir, at average levels. From a carbon perspective, almond orchards could sequester 8% of the state's current greenhouse gas emissions by transitioning toward climate-smart practices. As such, the almond industry is uniquely positioned to curb water use and contribute to climate change mitigation while maintaining economic viability of almond production. An overview of initial results related to evapotranspiration observational and modeling uncertainty and carbon sequestration potential are presented in this article. [ABSTRACT FROM AUTHOR]

Published

2024

2. Kaolin as a management alternative for insecticide-resistant navel orangeworm (Lepidoptera: Pyralidae).

Author

Bush, Daniel S, Demkovich, Mark, Aldunate, Moiravi, Siegel, Joel, and Berenbaum, May R

Subjects

KAOLIN, INSECTICIDES, ALMOND growing, CHLORANTRANILIPROLE, PYRALIDAE, BIFENTHRIN, PEST control, LEPIDOPTERA

Abstract

The production of almonds and pistachios in California's Central Valley employs insecticides for the management of their primary pest, navel orangeworm. The pyrethroid Bifenthrin is commonly used, and now a strain of Amyelois transitella Walker (Lepidoptera: Pyralidae) (R347) obtained from Kern County almond orchards with a history of Bifenthrin use has acquired >110-fold resistance toward pyrethroids. One method to improve control is to use additives and spray adjuvants, which are applied simultaneously with an insecticide to increase coverage and/or duration of control. We tested 2 levels of the naturally occurring clay Kaolin as an additive, alone and in combination with either Bifenthrin or the diamide Chlorantraniliprole, to determine if it could reduce feeding damage and decrease survival of pyrethroid-resistant A. transitella on almonds in the laboratory and improve the efficacy of Chlorantraniliprole in the field. Larval performance was measured for the strains R347 and ALM (34.7-fold resistance compared to susceptible lab strain) reared on treated almonds. Strain R347 had 1.9-fold greater survival and caused 1.3-fold more feeding damage than strain ALM across all treatments, although both strains were susceptible to the combination of Kaolin + insecticide. Kaolin synergized Bifenthrin for R347, decreasing survival by 10.0%. Kaolin did not reduce feeding damage for either strain. When combined with insecticide, feeding damage was similar to insecticide alone, but the addition of Kaolin to the insecticide generally decreased survival more than the insecticide alone. In the field, the addition of Kaolin to Chlorantraniprole during application helped retain activity against this challenging pest. [ABSTRACT FROM AUTHOR]

Published

2023

3. Effects of pesticide-adjuvant combinations used in almond orchards on olfactory responses to social signals in honey bees (Apis mellifera).

Author

Wu, Wen-Yen, Liao, Ling-Hsiu, Lin, Chia-Hua, Johnson, Reed M., and Berenbaum, May R.

Subjects

*HONEYBEES, *ALMOND growing, *OLFACTORY receptors, *ALMOND, *ORCHARDS, *CHLORANTRANILIPROLE, *BEE colonies

Abstract

Exposure to agrochemical sprays containing pesticides and tank-mix adjuvants has been implicated in post-bloom mortality, particularly of brood, in honey bee colonies brought into California almond orchards for pollination. Although adjuvants are generally considered to be biologically inert, some adjuvants have exhibited toxicity and sublethal effects, including decreasing survival rates of next-generation queens. Honey bees have a highly developed olfactory system to detect and discriminate among social signals. To investigate the impact of pesticide-adjuvant combinations on honey bee signal perception, we performed electroantennography assays to assess alterations in their olfactory responsiveness to the brood ester pheromone (BEP), the volatile larval pheromone β-ocimene, and the alarm pheromone 2-heptanone. These assays aimed to uncover potential mechanisms underlying changes in social behaviors and reduced brood survival after pesticide exposure. We found that combining the adjuvant Dyne-Amic with the fungicide Tilt (propiconazole) and the insecticide Altacor (chlorantraniliprole) synergistically enhanced olfactory responses to three concentrations of BEP and as well exerted dampening and compensatory effects on responses to 2-heptanone and β-ocimene, respectively. In contrast, exposure to adjuvant alone or the combination of fungicide and insecticide had no effect on olfactory responses to BEP at most concentrations but altered responses to β-ocimene and 2-heptanone. Exposure to Dyne-Amic, Altacor, and Tilt increased BEP signal amplitude, indicating potential changes in olfactory receptor sensitivity or sensilla permeability to odorants. Given that, in a previous study, next-generation queens raised by nurses exposed to the same treated pollen experienced reduced survival, these new findings highlight the potential disruption of social signaling in honey bees and its implications for colony reproductive success. [ABSTRACT FROM AUTHOR]

Published

2023

4. Production of high protein yeast using enzymatically liquefied almond hulls.

Author

Sitepu, Irnayuli R., Hitomi, Alex, Wu, Wayne, Wu, Angela, Jeoh, Tina, and Boundy-Mills, Kyria

Subjects

*ALMOND growing, *ALMOND, *ESSENTIAL amino acids, *PECTINS, *ANIMAL feeds, *GALACTURONIC acid, *AGRICULTURE, *DAIRY cattle

Abstract

Animal feed ingredients, especially those abundant in high quality protein, are the most expensive component of livestock production. Sustainable alternative feedstocks may be sourced from abundant, low value agricultural byproducts. California almond production generates nearly 3 Mtons of biomass per year with about 50% in the form of hulls. Almond hulls are a low-value byproduct currently used primarily for animal feed for dairy cattle. However, the protein and essential amino acid content are low, at ~30% d.b.. The purpose of this study was to improve the protein content and quality using yeast. To achieve this, the almond hulls were liquefied to liberate soluble and structural sugars. A multi-phase screening approach was used to identify yeasts that can consume a large proportion of the sugars in almond hulls while accumulating high concentrations of amino acids essential for livestock feed. Compositional analysis showed that almond hulls are rich in polygalacturonic acid (pectin) and soluble sucrose. A pectinase-assisted process was optimized to liquefy and release soluble sugars from almond hulls. The resulting almond hull slurry containing solubilized sugars was subsequently used to grow high-protein yeasts that could consume nutrients in almond hulls while accumulating high concentrations of high-quality protein rich in essential amino acids needed for livestock feed, yielding a process that would produce 72 mg protein/g almond hull. Further work is needed to achieve conversion of galacturonic acid to yeast cell biomass. [ABSTRACT FROM AUTHOR]

Published

2023

5. Genetic diversity of Salmonella enterica isolated over 13 years from raw California almonds and from an almond orchard.

Author

Moyne, Anne-laure, Lawal, Opeyemi U., Gauthier, Jeff, Kukavica-Ibrulj, Irena, Potvin, Marianne, Goodridge, Lawrence, Levesque, Roger C., and Harris, Linda J.

Subjects

*ALMOND, *GENETIC variation, *ALMOND growing, *SALMONELLA enterica, *SALMONELLA enteritidis, *SALMONELLA, *AGRICULTURE, *GENOMICS, *WHOLE genome sequencing

Abstract

A comparative genomic analysis was conducted for 171 Salmonella isolates recovered from raw inshell almonds and raw almond kernels between 2001 and 2013 and for 30 Salmonella Enteritidis phage type (PT) 30 isolates recovered between 2001 and 2006 from a 2001 salmonellosis outbreak-associated almond orchard. Whole genome sequencing was used to measure the genetic distance among isolates by single nucleotide polymorphism (SNP) analyses and to predict the presence of plasmid DNA and of antimicrobial resistance (AMR) and virulence genes. Isolates were classified by serovars with Parsnp, a fast core-genome multi aligner, before being analyzed with the CFSAN SNP Pipeline (U.S. Food and Drug Administration Center for Food Safety and Applied Nutrition). Genetically similar (≤18 SNPs) Salmonella isolates were identified among several serovars isolated years apart. Almond isolates of Salmonella Montevideo (2001 to 2013) and Salmonella Newport (2003 to 2010) differed by ≤9 SNPs. Salmonella Enteritidis PT 30 isolated between 2001 and 2013 from survey, orchard, outbreak, and clinical samples differed by ≤18 SNPs. One to seven plasmids were found in 106 (62%) of the Salmonella isolates. Of the 27 plasmid families that were identified, IncFII and IncFIB plasmids were the most predominant. AMR genes were identified in 16 (9%) of the survey isolates and were plasmid encoded in 11 of 16 cases; 12 isolates (7%) had putative resistance to at least one antibiotic in three or more drug classes. A total of 303 virulence genes were detected among the assembled genomes; a plasmid that harbored a combination of pef, rck, and spv virulence genes was identified in 23% of the isolates. These data provide evidence of long-term survival (years) of Salmonella in agricultural environments. [ABSTRACT FROM AUTHOR]

Published

2023

6. A comparative analysis of OpenET for evaluating evapotranspiration in California almond orchards.

Author

Knipper, Kyle, Anderson, Martha, Bambach, Nicolas, Melton, Forrest, Ellis, Zac, Yang, Yun, Volk, John, McElrone, Andrew J., Kustas, William, Roby, Matthew, Carrara, Will, Castro, Sebastian, Kilic, Ayse, Fisher, Joshua B., Ruhoff, Anderson, Senay, Gabriel B., Morton, Charles, Saa, Sebastian, and Allen, Richard G.

Subjects

*ALMOND growing, *ALMOND, *EVAPOTRANSPIRATION, *IRRIGATION management, *ORCHARDS, *EDDY flux, *WOODY plants, *DEFICIT irrigation

Abstract

• OpenET models provide actionable ET values for almonds. • OpenET models face difficulties during almond hull split and harvest. • Daily OpenET ensemble ET aligns with measured ET to 16 % accuracy. • OpenET ensemble ET captures almond orchard water input within 13 % accuracy. The almond industry in California faces water management challenges that are being exacerbated by droughts, climate change, and groundwater sustainability legislation. The Tree-crop Remote sensing of Evapotranspiration eXperiment (T-REX) aims to explore opportunities to improve precision irrigation management for woody perennial cropping systems. Almond orchards in the California Central Valley were equipped with eddy covariance flux measurements to evaluate satellite remote sensing-based evapotranspiration (RSET) models. OpenET provides high-resolution (30-m spatial and daily temporal) RSET data, synthesizing decades of research for practical water management. This study provides an evaluation of OpenET performance at six almond sites covering a large range in soils, age, and variety. It also compares OpenET ensemble evapotranspiration (ET) data with applied irrigation and precipitation records over an additional 148 almond orchards located in the Central Valley of California. Results show OpenET models, including the ensemble ET value, produced reasonable and actionable ET values, with overall coefficient of determination (R2) and mean absolute error values of 0.73- and 0.95-mm d −1 at the daily time step, respectively. However, given the temporal sampling of Landsat (8-day revisit) and the interpolation methods used, the assessed ET models had difficulty in capturing short-term variability in almond ET; for example, the rapid decline in measured ET observed as a response to lack of irrigation preceding and during almond harvest. The study also drew attention to the spatial complexity in scenarios where irrigated orchards are surrounded by hot/dry areas, causing discrepancies between measured and modeled ET values. In comparison with irrigation records, OpenET ensemble ET was capable of quantifying water input (applied irrigation + precipitation) in almond orchards to within 13 % when evaluating monthly data. Initial results presented here reinforce the idea that RSET models, such as in OpenET, are powerful tools, yet their application requires nuanced understanding and careful consideration of local conditions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Field Biology of Scolothrips sexmaculatus (Thysanoptera: Thripidae) as a Predator of Tetranychus pacificus (Acari: Tetranychidae) in California Almonds.

Author

Haviland, David R, Rill, Stephanie M, and Gordon, Chelsea A

Subjects

SPIDER mites, TETRANYCHUS, MITES, ALMOND growing, THRIPS, PREDATION, ALMOND

Abstract

Biological control of tetranychid spider mites in California almonds has predominantly been associated with predatory mites in the family Phytoseiidae. However, changes in production practices, including shifts to more sustainable chemical control programs, have resulted in a trophic shift leading to the predominance of six-spotted thrips, Scolothrips sexmaculatus Pergande, as the primary mite predator. Over a 3-yr period, we studied S. sexmaculatus biology and relationship to Tetranychus pacificus McGregor in almond orchards in the southern San Joaquin Valley of California. Scolothrips sexmaculatus had two periods of activity in response to increases in T. pacificus density, one in the spring and one in the summer. Sex ratios were consistently skewed to more than 90% females captured on yellow sticky traps, with females producing eggs from May to October. Female thrips were larger than males, and both sexes were larger from June to September when temperatures were warmer and food was more abundant. In response to spider mite outbreaks, S. sexmaculatus increased from approximately 2/trap/wk to an average of 1,272/trap/wk over a 5-wk period, representing a population doubling time of 4.0 d. Over this time, we described trends in T. pacificus and S. sexmaculatus density that are consistent with population regulation through predator–prey relationships by a specialist predator. [ABSTRACT FROM AUTHOR]

Published

2021

8. Management of Navel Orangeworm (Lepidoptera: Pyralidae) Using Four Commercial Mating Disruption Systems in California Almonds.

Author

Haviland, David R, Rijal, Jhalendra P, Rill, Stephanie M, Higbee, Bradley S, Burks, Charles S, and Gordon, Chelsea A

Subjects

ORANGES, PYRALIDAE, ALMOND, PEST control, BREAK-even analysis, LEPIDOPTERA, ALMOND growing

Abstract

The navel orangeworm, Amyelois transitella (Walker), is the most significant pest of California almonds. Direct feeding on the kernel by the larvae causes reductions in salable crop, crop quality, and exportability. Pheromone mating disruption (MD) targeting navel orangeworm is a relatively new technique with the potential to improve management. In 2017, we used replicated ~16-ha plots to compare the efficacy of four commercial MD systems (CheckMate, Cidetrak, Isomate, and Semios) for their relative impacts on the number of navel orangeworm in monitoring traps and crop quality. From 2017 to 2018, we conducted nine direct comparison studies in 16 to 40 ha almond orchards to compare conventional pest management programs to programs incorporating pheromone MD systems. Across all studies, MD reduced male moth captures in pheromone traps by >94%. In the efficacy study, use of mating disruption led to 35% and 53% reductions in kernel damage in Nonpareil and pollinizer cultivars, respectively, and an average increase in crop value of $370 ha−1. In the direct comparison, kernel damage to Nonpareil and pollinizer cultivars was reduced by 65% and 78%, respectively, resulting in an average increase in crop value of $357 ha−1. Economic analyses showed that increases in crop returns exceeded the costs of implementing MD systems with the break-even point ranging from 0.86 to 1.06% of kernel damage. These results suggest that adding MD to an existing navel orangeworm management program is a cost-effective way to reduce damage while promoting sustainable pest management practices. [ABSTRACT FROM AUTHOR]

Published

2021

9. Evaluation of Sticky Traps for Monitoring Scolothrips sexmaculatus (Thysanoptera: Thripidae) and Stethorus punctum (Coleoptera: Coccinellidae) as Predators of Spider Mites in California Almonds.

Author

Haviland, David R, Rill, Stephanie M, and Gordon, Chelsea A

Subjects

SPIDER mites, PREDATORY mite, ALMOND growing, PHYTOSEIIDAE, THRIPS, LADYBUGS, PREDATORY animals, INTEGRATED pest control

Abstract

Changes in almond production practices have caused sixspotted thrips, Scolothrips sexmaculatus Pergande, and the coccinellid beetle, Stethorus punctum LeConte, to replace phytoseiid mites as the dominant predators of spider mites in California almonds. We conducted a series of field studies to evaluate nine commercially available adhesive traps for S. sexmaculatus and S. punctum and found that the yellow strip trap was the most effective, least expensive, and easy to use. At peak population levels, individual cards routinely caught >1,000 S. sexmaculatus and >100 S. punctum trap−1 week−1. We documented that larger traps collected more S. sexmaculatus , and more S. sexmaculatus per square area, suggesting that the trap surface was attractive. We determined the number of traps needed to have 50, 70, and 90% confidence that the averages of trap captures were within 10, 30, and 50% of the population mean. Two yellow strip traps per orchard provided 90% confidence that trap captures were within 50% of the population mean if there were an average of 16.0 S. sexmaculatus trap−1 week−1 or 7.9 S. punctum trap−1 week−1. Populations required to attain the same levels of confidence using four traps per orchard were 3.9 S. sexmaculatus and 2.9 S. punctum trap−1 week−1. We conclude that use of the yellow strip trap to monitor for natural enemies, in combination with leaf samples for spider mites, has the potential to improve integrated pest management programs for spider mites, and assist future research to understand the biology and phenology of both predator species. [ABSTRACT FROM AUTHOR]

Published

2021

10. Complete Genome Sequence Data of Three Xylella fastidiosa subsp. multiplex Strains Isolated from Olive Trees in California, U.S.A.

Author

O’Leary, Michael L., Burbank, Lindsey P., Krugner, Rodrigo, and Stenger, Drake C.

Subjects

*XYLELLA fastidiosa, *NUCLEOTIDE sequencing, *PHYTOPATHOGENIC microorganisms, *PLANT species, *OLIVE growing, *ALMOND growing, *ALMOND

Abstract

Xylella fastidiosa is a xylem-limited bacterial plant pathogen that causes disease on numerous hosts. Additionally, X. fastidiosa asymptomatically colonizes a wide range of plant species. X. fastidiosa subsp. multiplex has been detected in olive (Olea europaea) trees grown in California, U.S.A., as well as in Europe. Strains of X. fastidiosa subsp. multiplex isolated from California olive trees are not known to cause disease on olive, although some can induce leafscorch symptoms on almond (Prunus dulcis). No genome assemblies currently exist for oliveassociated X. fastidiosa subsp. multiplex strains; therefore, a hybrid assembly method was used to generate complete genome sequences for three X. fastidiosa subsp. multiplex strains (Fillmore, LM10, and RH1) isolated from olive trees grown in Ventura and Los Angeles counties of California. [ABSTRACT FROM AUTHOR]

Published

2020

11. Longitudinal monitoring of honey bee colonies reveals dynamic nature of virus abundance and indicates a negative impact of Lake Sinai virus 2 on colony health.

Author

Faurot-Daniels, Cayley, Glenny, William, Daughenbaugh, Katie F., McMenamin, Alexander J., Burkle, Laura A., and Flenniken, Michelle L.

Subjects

*HONEYBEES, *BEE colonies, *ALMOND, *VIRUS diseases, *ALMOND growing, *VIRUSES, *LAKES

Abstract

Honey bees (Apis mellifera) are important pollinators of plants, including those that produce nut, fruit, and vegetable crops. Therefore, high annual losses of managed honey bee colonies in the United States and many other countries threaten global agriculture. Honey bee colony deaths have been associated with multiple abiotic and biotic factors, including pathogens, but the impact of virus infections on honey bee colony population size and survival are not well understood. To further investigate seasonal patterns of pathogen presence and abundance and the impact of viruses on honey bee colony health, commercially managed colonies involved in the 2016 California almond pollination event were monitored for one year. At each sample date, colony health and pathogen burden were assessed. Data from this 50-colony cohort study illustrate the dynamic nature of honey bee colony health and the temporal patterns of virus infection. Black queen cell virus, deformed wing virus, sacbrood virus, and the Lake Sinai viruses were the most readily detected viruses in honey bee samples obtained throughout the year. Analyses of virus prevalence and abundance revealed pathogen-specific trends including the overall increase in deformed wing virus abundance from summer to fall, while the levels of Lake Sinai virus 2 (LSV2) decreased over the same time period. Though virus prevalence and abundance varied in individual colonies, analyses of the overall trends reveal correlation with sample date. Total virus abundance increased from November 2015 (post-honey harvest) to the end of the almond pollination event in March 2016, which coincides with spring increase in colony population size. Peak total virus abundance occurred in late fall (August and October 2016), which correlated with the time period when the majority of colonies died. Honey bee colonies with larger populations harbored less LSV2 than weaker colonies with smaller populations, suggesting an inverse relationship between colony health and LSV2 abundance. Together, data from this and other longitudinal studies at the colony level are forming a better understanding of the impact of viruses on honey bee colony losses. [ABSTRACT FROM AUTHOR]

Published

2020

12. Wildflower plantings promote blue orchard bee, Osmia lignaria (Hymenoptera: Megachilidae), reproduction in California almond orchards.

Author

Boyle, Natalie K., Artz, Derek R., Lundin, Ola, Ward, Kimiora, Picklum, Devon, Wardell, Gordon I., Williams, Neal M., and Pitts‐Singer, Theresa L.

Subjects

*ALMOND, *WILD flowers, *ALMOND growing, *BEES, *BEEKEEPING, *ORCHARDS, *HONEYBEES, *HYMENOPTERA

Abstract

Concerns over the availability of honeybees (Apis mellifera L.) to meet pollination demands have elicited interest in alternative pollinators to mitigate pressures on the commercial beekeeping industry. The blue orchard bee, Osmia lignaria (Say), is a commercially available native bee that can be employed as a copollinator with, or alternative pollinator to, honeybees in orchards. To date, their successful implementation in agriculture has been limited by poor recovery of bee progeny for use during the next spring. This lack of reproductive success may be tied to an inadequate diversity and abundance of alternative floral resources during the foraging period. Managed, supplementary wildflower plantings may promote O. lignaria reproduction in California almond orchards. Three wildflower plantings were installed and maintained along orchard edges to supplement bee forage. Plantings were seeded with native wildflower species that overlapped with and extended beyond almond bloom. We measured bee visitation to planted wildflowers, bee reproduction, and progeny outcomes across orchard blocks at variable distances from wildflower plantings during 2015 and 2016. Pollen provision composition was also determined to confirm O. lignaria wildflower pollen use. Osmia lignaria were frequently observed visiting wildflower plantings during, and after, almond bloom. Most O. lignaria nesting occurred at orchard edges. The greatest recovery of progeny occurred along the orchard edges having the closest proximity (80 m) to managed wildflower plantings versus edges farther away. After almond bloom, O. lignaria nesting closest to the wildflower plantings collected 72% of their pollen from Phacelia spp., which supplied 96% of the managed floral area. Phacelia spp. pollen collection declined with distance from the plantings, but still reached 17% 800 m into the orchard. This study highlights the importance of landscape context and proximity to supplementary floral resources in promoting the propagation of solitary bees as alternative managed pollinators in commercial agriculture. [ABSTRACT FROM AUTHOR]

Published

2020

13. Alternative fertilization practices lead to improvements in yield-scaled global warming potential in almond orchards.

Author

Nichols, Patrick K., Dabach, Sharon, Abu-Najm, Majdi, Brown, Patrick, Camarillo, Rebekah, Smart, David, and Steenwerth, Kerri L.

Subjects

*ALMOND growing, *ALMOND, *GREENHOUSE gas mitigation, *GREENHOUSE gases, *CLIMATE change mitigation, *NITROGEN fertilizers, *RADIATIVE forcing

Abstract

This study investigates the impact of alternative fertilization practices on the yield-scaled global warming potential (YS-GWP) in almond orchards. Almond production is a contributor to greenhouse gas emissions, primarily due to nitrogen-based mineral fertilizers. This research aims to identify strategies that reduce the environmental footprint of almond cultivation while maintaining yield. Field experiments were conducted in an almond orchard using three alternative fertigation practices: Advance Grower Practice (AGP), Pump and Fertilize (P&F), and High Frequency Low Concentration (HFLC). AGP is the current practice used by producers to meet annual N demand for almond tree growth; P&F is a reduction in applied N rate in response to measured N concentrations in the groundwater so that the added N and groundwater N reach the same total N applied; HFLC is a practice of applying smaller N rates per individual event. HFLC uses a greater number of fertigation events to reach similar total annual N load as other treatments. Cumulative N 2 O and CH 4 emissions were used to determine GWP by converting the emissions to carbon dioxide equivalents (CO 2 eq) within a 100-year horizon. Nitrous oxide emissions were multiplied by a radiative forcing potential CO 2 eq of 298 and CH 4 by 25 (UNFCCC, 2007). The results revealed that both P&F and HFLC reduced the YS-GWP compared to AGP. HFLC demonstrated 52–78% decrease in GWP per unit of almond yield compared to AGP, while P&F showed 48–58% decrease over AGP. These reductions were attributed to the reduced nitrous oxide emissions associated with P&F and HFLC. Further, P&F and HFLC tended to have higher N use efficiency than AGP. We demonstrate that adopting alternative fertilization practices can effectively mitigate the environmental footprint of almond orchards while maintaining crop yields. These practices offer viable options for almond growers to reduce greenhouse gas emissions, enhance sustainability, and contribute to climate change mitigation. • Applying nitrogen fertilizer at a lower amount and higher frequency reduces nitrous oxide emissions. • This practice tends to have higher nitrogen use efficiency than standard practice. • It maintains commercial yields at the same level as the standard practice. • It lowers Yield Scaled Global Warming Potential more than the standard practice. [ABSTRACT FROM AUTHOR]

Published

2024

14. Examination of a Managed Pollinator Strategy for Almond Production Using Apis mellifera (Hymenoptera: Apidae) and Osmia lignaria (Hymenoptera: Megachilidae).

Author

Pitts-Singer, Theresa L., Artz, Derek R., Boyle, Natalie K., Peterson, Stephen S., and Wardell, Gordon I.

Subjects

ALMOND growing, POLLINATION by bees, HONEYBEES, OSMIA lignaria, ORCHARDS

Abstract

Pollination services provided by managed bees are essential for California almond (Prunus dulcis Mill.; Rosales: Rosaceae) production. Currently, pollination needs are met by rented or owned Apis mellifera L. (Hymenoptera: Apidae; honey bee) colonies. Excessive demand on a challenged A. mellifera industry to provide strong colonies in early spring has caused sharp increases in rental prices over the past decade, inviting the consideration of alternative pollinators in addition to, or in place of, A. mellifera. Osmia lignaria Say (Hymenoptera: Megachilidae; the blue orchard bee) is an excellent pollinator of fruit and nut trees, but its pollination impacts when used in tandem with A. mellifera have yet to be evaluated in commercial almond orchards. A 2-yr study was conducted in California orchards to compare almond pollination and production using A. mellifera as sole pollinator to an alternative practice of adding O. lignaria as a co-pollinator with A. mellifera. Almond orchard managerial decisions, such as for pesticide use and irrigation intensity, vary between almond growing regions because of local climates. Therefore, both north-central and southern sites of California's San Joaquin Valley are represented. We compared bee visitation, nut set, and nut yield between orchards and between tree rows within orchards. Also, O. lignaria reproductive success was recorded to assure that these bees remained in the orchards as pollinators and to assess the ability to sustain these bees under regional orchard conditions. We demonstrated that augmenting large commercial almond orchards with O. lignaria can significantly increase nut set and sometimes nut yield in both regions evaluated. [ABSTRACT FROM AUTHOR]

Published

2018

15. Shifts in the thermal niche of almond under climate change.

Author

Parker, Lauren E. and Abatzoglou, John T.

Subjects

LAND use, WATER management, ALMOND growing, CLIMATE change, AGRICULTURAL management, CROP yields, WATER supply, AGRICULTURE

Abstract

Delineating geographic shifts in crop cultivation under future climate conditions provides information for land use and water management planning, and insights to meeting future demand. A suitability modeling approach was used to map the thermal niche of almond cultivation and phenological development across the Western United States (US) through the mid-21st century. The Central Valley of California remains thermally suitable for almond cultivation through the mid-21st century, and opportunities for expansion appear in the Willamette Valley of western Oregon, which is currently limited by insufficient heat accumulation. Modeled almond phenology shows a compression in reproductive development under future climate. By the mid-21st century, almond phenology in the Central Valley showed ~ 2-week delay in chill accumulation and ~ 1- and ~ 2.5-week advance in the timing of bloom and harvest, respectively. Although other climatic and non-climatic restrictions to almond cultivation may exist, these results highlight opportunities for shifts in the geography of high-value cropping systems, which may influence growers’ long-term land use decisions, and shape regional water and agricultural industry discussions regarding climate change adaptation options. [ABSTRACT FROM AUTHOR]

Published

2018

16. Low and variable atmospheric coupling in irrigated Almond (Prunus dulcis) canopies indicates a limited influence of stomata on orchard evapotranspiration.

Author

Spinelli, Gerardo M., Snyder, Richard L., Sanden, Blake L., Gilbert, Matthew, and Shackel, Ken A.

Subjects

*ALMOND growing, *DEFOLIATION, *PLANT water requirements, *IRRIGATION, *WATER management, *EVAPOTRANSPIRATION, *AGRICULTURE

Abstract

The degree of coupling to the environment of almond ( Prunus dulcis ) orchards during periods of transient water stress was investigated in a two-year study in California. Plant water status was monitored weekly, before and/or after irrigation, measuring midday stem water potential (Ψ stem ) that ranged from −0.5 to −2 MPa, while actual evapotranspiration (ET a ) was measured with an eddy covariance tower. Irrigation was applied weekly following common commercial practice, resulting in weekly cycles of Ψ stem . Despite Ψ stem reaching levels shown to induce substantial stomatal closure, the ratio actual to reference evapotranspiration (ET a /ET o = K a ) did not show a decrease during weekly periods of low Ψ stem in the two years of the study. Midday average canopy surface resistance (r cmid ), computed by reversing the Penman-Monteith equation from eddy covariance ET data, yielded a statistically significant increase with a decrease in Ψ stem , but just in the first year of the study. However, r cmid did not show a significant relationship with stomatal resistance measured at the leaf level with porometry and scaled-up to the canopy level. In the first year, r cmid showed a sharp increase after harvest, when K a also decreased, perhaps produced by the composite effect of defoliation associated with harvest and stomatal closure associated with water stress. During the growing season, r cmid ranged from 0 to 100 s m −1 and midday average aerodynamic resistance (r amid ) ranged between 0 and 50 s m −1 . Despite r cmid being generally larger than r a , the midday average decoupling factor (Ω) averaged 0.7 during the irrigation season, indicating decoupled conditions. However, there was a large day to day fluctuation of midday Ω ranging from 0.16 to 0.98 mostly associated with r cmid and wind speed. This study indicated that tall and rough canopies can be relatively decoupled depending on the effect of wind speed and canopy resistance on the decoupling factor. From a water management point of view, this result suggests that inducing transient mild to moderate water stress may not produce substantial water savings in areas having low to moderate winds. [ABSTRACT FROM AUTHOR]

Published

2018

17. Early almond yield forecasting by bloom mapping using aerial imagery and deep learning.

Author

Chakraborty, Momtanu, Pourreza, Alireza, Zhang, Xin, Jafarbiglu, Hamid, Shackel, Kenneth A., and DeJong, Theodore

Subjects

*ALMOND growing, *DEEP learning, *AERIAL surveys, *ALMOND, *NITROGEN fertilizers, *STANDARD deviations, *AGRICULTURAL forecasts

Abstract

• Estimate almond bloom density from aerial images using deep learning U-Net model. • High accuracy achieved: 81% precision, 65% recall, NRMSE < 1%. • Significant correlation between bloom density and crop load confirmed. • Valuable tool to determine in field variability for Nitrogen management. • Enables early in-season yield estimation for almond growers. Our study aims to measure bloom density in almond trees and, in turn, predict crop load at the tree level from aerial RGB images. Almond yield forecasting early in the season has become necessary in California due to the new legislation that requires growers to determine their nitrogen fertilizer rate based on soil tests and crop yield forecasts. Predicting almond yield by estimating crop load from bloom density would be the earliest in-season yield estimation. It would help growers with precision management, saving inputs, and complying with the nitrogen limit mandate. Drone flights were conducted during the almond bloom period for six orchards. An end-to-end deep learning architecture, U-Net, was used to segment and determine bloom density per tree. Our model was able to achieve high levels of accuracy, with precision and recall values of 81% and 65%, respectively, which means that the model was able to identify a significant proportion of the bloom pixels with high precision. We conducted a simple linear regression analysis to compare bloom density determined by manual hue-saturation-value (HSV) thresholding (as labels) to bloom density predicted by the U-Net, which resulted in a coefficient of determination (R2) of 0.78 and a normalized root mean square error (NRMSE) of<1 percent (0.69%). The results confirmed that the model is robust and independent from lighting and environmental conditions. End-of-season yield data at the row level were collected from an experimental almond orchard for three consecutive years and used as ground truth for verifying the association between the bloom density and crop load. Our tests revealed a significant positive Pearson's correlation coefficient (R = 0.65–0.9, p < 0.05) when comparing crop load and the estimated bloom density for Nonpareil cultivar every year, which growers could use to predict expected in-field yield variability in regard to bloom density. [ABSTRACT FROM AUTHOR]

Published

2023

18. YET ANOTHER INVASIVE INSECT TO WREAK HAVOC?: Carpophilus beetle attacks California tree nuts, the latest on a long list of insect invasions.

Author

EDDY, DAVID

Subjects

*INTRODUCED insects, *ORCHARDS, *BEETLES, *INSECTS, *ALMOND growing, *CITRUS fruit industry, *SPOTTED lanternfly, *FRUIT industry

Published

2024

19. Establishing an almond water production function for California using long-term yield response to variable irrigation.

Author

Goldhamer, David and Fereres, Elias

Subjects

*ALMOND growing, *IRRIGATION, *DROUGHTS, *ALMOND, *EVAPOTRANSPIRATION, *PRICES

Abstract

The consumptive use of water by almond trees in California has become a controversial topic due to a worsening drought that began in 2011. The research reported herein was designed to provide information that could be used in irrigation decision-making including how to evaluate the risks/rewards of seeking/acquiring additional supplies in a drought. Ten irrigation levels ranging from 1000 to 1350 mm per season were applied in a mature southern San Joaquin Valley 'Nonpareil' almond orchard over a 5-year period. Nut load was invariant over the range of irrigation regimes with no evidence of any sustained negative impacts. Individual kernel weight was reduced commensurate with the level of deficit irrigation; the lowest irrigation resulted in a 15% lighter kernel. Maximum yield (3900 kg/ha) was achieved with 1250 mm of applied water. There was statistically significant tree stress in the 1250-mm application regime with midday shaded leaf water potential about 0.2 MPa more negative than trees receiving additional water. Maximum marginal water productivity (WP) was 0.30 kg/m at 1080 mm of applied water, falling to zero at 1290 mm. With almond prices of $8/kg, this is equivalent to water valued at $2/m. Estimated annual statewide almond orchard evapotranspiration based on this study is 1100-1350 mm which is about 25% higher than estimates made four decades ago. However, yields have increased in the 250% range since that time. This tenfold difference between yield and evapotranspiration means that WP is much higher now than in the past, and at current prices, it demonstrates that almond trees are suited for high water cost areas. [ABSTRACT FROM AUTHOR]

Published

2017

20. BROWN MARMORATED STINK BUG: ONE TOUGH NUT FOR GROWERS TO CRACK: The invasive pest continues to cause damage in California almond orchards -- as well as in most other parts of the country where it's become more than just a nuisance.

Author

RIJAL, JHALENDRA

Subjects

BROWN marmorated stink bug, ALMOND growing, ORCHARDS, ALMOND, PESTS, NUTS

Published

2020

21. First Report of the Peach Root-Knot Nematode, Meloidogyne floridensis Infecting Almond on Root-Knot Nematode Resistant 'Hansen 536' and 'Bright's Hybrid 5' Rootstocks in California, USA.

Author

Westphal, Andreas, Maung, Zin T. Z., Doll, David A., Yaghmour, Mohammad A., Chitambar, John J., and Subbotin, Sergei A.

Subjects

*ALMOND, *ROOT-knot, *ROOT-knot nematodes, *ROOTSTOCKS, *ALMOND growing, *PEACH

Abstract

In April-August 2018, samples of galled roots with rhizosphere soil were collected from almond orchards in Atwater, Merced County and Bakersfield, Kern County, California. Almond trees ( Prunus dulcis) grafted on 'Hansen 536' and 'Brights Hybrid®5' (peach-almond hybrid) rootstocks showed strong symptoms of growth decline. Extracted root-knot nematodes were identified by both morphological and molecular methods as M. floridensis. Meloidogyne floridensis was initially found in Florida, USA, and has not been reported from any other states and countries. This is a first report of M. floridensis in California and outside of Florida. [ABSTRACT FROM AUTHOR]

Published

2019

22. Pity the Almond.

Author

Hanson, Victor Davis

Subjects

*ALMOND growing, *ALMOND, *AGRICULTURE, *WATER supply, *NUT marketing, *PRICES

Abstract

The article presents a reprint of the article "Pity the Almond," by Victor Davis Hanson, which appeared in the 2016 issue of the journal "Defining Ideas." Topics discussed include the growth of almond plantation in California, the effects of almond farming in water policies, marketing, and labor practices, and the high price of almonds. Also mentioned are the increase of almond consumption and its health value.

Published

2016

23. Blue Diamond Almond Growers launch 'Almond Express' rail service from inland California to ports of LA and LB.

Author

Margaronis, Stas

Subjects

ALMOND growing, INTERMODAL freight terminals, ALMOND, DRAYAGE

Published

2022

24. nut job.

Author

VIGNERON, PETER

Subjects

*AGRICULTURE, *ALMOND growing, *WALNUT, *PISTACHIO growing, *PRICES, FEDERAL government of the United States

Abstract

The article offers information on several crimes related to transportation and sale of almonds, walnuts and pistachios, in California. It mentions that California grows the majority of the world's almonds along with production of pistachios and walnuts. It also discusses the involvement of Federal government which has affected investigation process and slowed prosecutions.

Published

2017

25. ALMOND GROWERS SCRAMBLE TO COPE.

Author

EDDY, DAVID

Subjects

DROUGHTS, ALMOND growing, WATER supply, WATER supply policy, IRRIGATION, INFRASTRUCTURE (Economics), ECONOMICS

Abstract

The article focuses on the struggle of almond growers in California due to the drought and the urban water restriction imposed by Governor Jerry Brown. Topics discussed include a survey by California Farm Water Coalition which revealed that the irrigated farmland of the state will lose its total surface water supply, grower Barry Baker uses pumping machinery to irrigate his orchard and vineyards, and the development of water infrastructure.

Published

2015

26. CALIFORNIA GROWERS FACE UNCERTAIN FUTURE: State's water situation grows increasingly dire, t though fruit and nut growers should fare better than others in the long run.

Author

EDDY, DAVID

Subjects

NUTS, FRUIT growers, ALMOND, FISH declines, ALMOND growing

Published

2021

27. Almond Board invests $4.8 million in 'Farm of the Future' research.

Author

Blake, Cary

Subjects

ALMOND growing, ALMOND industry

Abstract

The article reports on the funds invested by the Almond Board of California for its Farm of the Future research program which aims to improve the farming practices and processing of almonds.

Published

2017

28. Bridging the Generation Gap.

Author

McGarry, Janet

Subjects

ORGANIC farmers, ORGANIC farming, TRADITIONAL farming, ALMOND growing

Abstract

The article profiles several organic farmers including Guinness McFadden, Kathleen Barsotti, and Michelle and Bill van Ryn, who are committed in using farming methods that are healthy to both consumers and the environment in California. McFadden started using organic techniques in farming when he settled in Potter Valley. Barsotti and her husband established the first organic farm in Capay Valley. Michelle van Ryn utilized conventional methods in their almond farm.

Published

2009

29. Sustainable value mapping and analysis methodology: Enabling stakeholder participation to develop localized indicators mapped to broader sustainable development goals.

Author

Winans, K., Dlott, F., Harris, E., and Dlott, J.

Subjects

*SUSTAINABLE development, *ALMOND growing, *SOCIAL sustainability, *SOCIAL responsibility, *ECONOMIC expansion, *SUSTAINABLE urban development

Abstract

The need for sustainability and social responsibility investments is magnified as the world faces a significant loss of ecosystem function and biodiversity. Unfortunately, current assessment and decision-making support tools used to establish local sustainability priorities have limited efficacy. Thus, there is a critical need to design decision-making support tools and assessment models that appropriately fit a specific context. Essentially, they must be more effective in directing our investments in sustainability and social responsibility, both of which influence our future global economic growth. The sustainable value mapping and analysis (SVMA) methodology, presented for the first time in this work, is a tool to engage multi-stakeholder groups in a strategic assessment of the social, environmental, and economic priorities and needs within supply chain operations. This paper introduces the SVMA methodology and applies it to two case studies, California almond growing and California winegrowing systems. The results point to the efficacy of the SVMA and opportunities to use it to develop and evaluate localized sustainability performance and outcomes against broader sustainable development goals (SDGs). • SVMA systematically establishes stakeholder consensus for sustainable management. • Benefits of SVMA are demonstrated for two agricultural sustainability programs. • SVMA can adapt broad sustainability frameworks or goals to a local context. [ABSTRACT FROM AUTHOR]

Published

2021

30. ALMOND GROWERS ENCOURAGED TO RECHARGE GROUNDWATER: California's heavy rains and following spring snowmelt from the Sierra Nevada demonstrate tremendous opportunity.

Author

EDDY, DAVID

Subjects

*RAINFALL, *GROUNDWATER recharge, *ALMOND growing, *SNOWMELT, *ATMOSPHERIC rivers

Published

2023

31. Specialty crops get time in spotlight during farm bill hearing in California.

Author

FITCHETTE, TODD

Subjects

SPECIALTY crops, AGRICULTURE, FARMS, NATURAL resources, ALMOND growing, FARMERS, ORCHARDS

Abstract

The article focuses on a rare farm bill listening session held in California, where producers of specialty crops explained their needs to a handful of House Agriculture Committee members including the delegation from California. Topics discussed included almond growers, adjusted gross income and payment limitations, and better market access program funding.

Published

2023

32. What Drives Crop Land Use Change during Multi-Year Droughts in California's Central Valley? Prices or Concern for Water?

Author

Gebremichael, Mekonnen, Krishnamurthy, P. Krishna, Ghebremichael, Lula T., Alam, Sarfaraz, and Brocca, Luca

Subjects

*LAND use, *TREE crops, *CROP management, *NUTS, *DROUGHTS, *CROPS, *WALNUT, *ALMOND growing

Abstract

The recent multi-year droughts in California have highlighted the heightened risk of longer and more intense droughts, thus increasing the interest in understanding potential impacts for major economic activities, such as agriculture. This study examines changes in cropping pattern in California's Central Valley between 2007 and 2016 in response to two consecutive droughts (2007–2009 and 2012–2016), factors driving these changes, and the impact of these changes on groundwater level. Results indicate that Central Valley experienced a shift in cropping pattern from alfalfa, cereals (rice, winter wheat, corn, and oats), and cotton, to nut (almonds, walnuts, and pistachios) and fruit (grapes, oranges, and tomatoes) tree crops. This shift in cropping pattern was likely driven by high crop prices, increasing trend in crop price, and increasing water pumping cost, particularly in the relatively water-stressed southern parts of Central Valley. While the total cropland water use for Central Valley remained the same during 2007–2016 (during both wet and dry years), they vary from county to county. Some counties experienced large reductions in cropland water use, while other counties experienced large increases in cropland water use, indicating the need for county-specific water resource management. The results also indicate that both land management (determining size of fallow land), as well as crop management (choice of crop types), are key factors in water resource management. [ABSTRACT FROM AUTHOR]

Published

2021

33. Individual and Additive Effects of Insecticide and Mating Disruption in Integrated Management of Navel Orangeworm in Almonds.

Author

Higbee, Bradley S., Burks, Charles S., Lucchi, Andrea, and Benelli, Giovanni

Subjects

*ORANGES, *INSECTICIDES, *PEST control, *ALMOND growing, *ALMOND, *PESTS

Abstract

Simple Summary: Mating disruption is an increasingly important part of pest management for the navel orangeworm Amyelois transitella. Industry groups have long supported mating disruption research and development with the divergent objectives of both minimizing damage from this key pest and reducing insecticide used on these crops. It is therefore important to know whether the benefits of mating disruption and insecticide are additive or, alternatively, if using both together provides no additional benefit over either alone. Ten years of data from research trials in a large commercial almond orchard found that the benefits of mating disruption are generally additive with lower damage if both are used together than either alone. Substantial year-to-year variability in navel orangeworm damage was also evident, even with stringent management. These findings indicate that the combination of mating disruption and insecticide can reduce the impact of navel orangeworm damage on the almond industry. Further improvements in monitoring and predictions of navel orangeworm abundance and damage are necessary for mating disruption to effectively contribute to the industry goal of reduction of insecticide use by 25%. Damage from Amyelois transitella, a key pest of almonds in California, is managed by destruction of overwintering hosts, timely harvest, and insecticides. Mating disruption has been an increasingly frequent addition to these management tools. Efficacy of mating disruption for control of navel orangeworm damage has been demonstrated in experiments that included control plots not treated with either mating disruption or insecticide. However, the navel orangeworm flies much farther than many orchard pests, so large plots of an expensive crop are required for such research. A large almond orchard was subdivided into replicate blocks of 96 to 224 ha and used to compare harvest damage from navel orangeworm in almonds treated with both mating disruption and insecticide, or with either alone. Regression of navel orangeworm damage in researcher-collected harvest samples from the interior and center of management blocks on damage in huller samples found good correlation for both and supported previous assumptions that huller samples underreport navel orangeworm damage. Blocks treated with both mating disruption and insecticide had lower damage than those treated with either alone in 9 of the 10 years examined. Use of insecticide had a stronger impact than doubling the dispenser rate from 2.5 to 5 per ha, and long-term comparisons of relative navel orangeworm damage to earlier- and later-harvested varieties revealed greater variation than previously demonstrated. These findings are an economically important confirmation of trade-offs in economic management of this critical pest. Additional monitoring tools and research tactics will be necessary to fulfill the potential of mating disruption to reduce insecticide use for navel orangeworm. [ABSTRACT FROM AUTHOR]

Published

2021

34. Why does California trail national agricultural policy?

Author

Fitchette, Todd

Subjects

AGRICULTURAL policy, GOVERNMENT policy, PRICES, ALMOND growing, AGRICULTURE, FARMERS

Abstract

California's agricultural output, particularly in counties like Fresno, Kern, and Tulare, is significant and surpasses that of most states. However, challenges such as drought, water scarcity, and fluctuating commodity prices impact the industry. Despite the impressive gross crop value, factors like labor and power costs, as well as policy decisions, affect growers' profitability. California's prominence as a farm state is not reflected in national agricultural policy, which often favors landlocked states with fewer commodities. [Extracted from the article]

Published

2021

35. Are All Colonies Created Equal? The Role of Honey Bee Colony Strength in Almond Pollination Contracts.

Author

Goodrich, Brittney K. and Goodhue, Rachael E.

Subjects

*HONEYBEES, *POLLINATION, *ALMOND, *BEE colonies, *ALMOND growing, *AGRICULTURAL productivity, *POPULATION dynamics

Abstract

This paper examines how honey bee population dynamics, the scale and timing of almond bloom, and unmarketability of almond honey interact to create misaligned incentives for growers and beekeepers in the California almond pollination services market. We combine economic contract theory with data from the first pollination contract survey to examine the design of pollination contracts. 89.2% of respondents used contracts with minimum colony population requirements, suggesting that all colonies are not considered to be equal providers of pollination services. Contracts that involved enforcement every year provided the highest pollination fees on average, while those with no enforcement provided the lowest fees. We contribute to the literature regarding pollination services by demonstrating that the number of hives and price per hive present an incomplete picture of almond pollination transactions without information regarding colony strength requirements and enforcement. We also provide a theoretical rationale for why almond pollination agreements have anecdotally become more formal over time: as the marginal value of colony strength increases, the grower offers the beekeeper stronger incentives to provide high colony strength. California almond production is an extreme case of a crop relying almost solely on managed pollinators, but ultimately could reflect the future for many pollinator-dependent crops if pollinator populations continue to decrease while monoculture crop production increases. [ABSTRACT FROM AUTHOR]

Published

2020

36. Evaluation of remote sensing-based evapotranspiration models against surface renewal in almonds, tomatoes and maize.

Author

Xue, Jingyuan, Bali, Khaled M., Light, Sarah, Hessels, Tim, and Kisekka, Isaya

Subjects

*IRRIGATION management, *EVAPOTRANSPIRATION, *ALMOND, *ALMOND growing, *TOMATOES, *FARM management, *CORN

Abstract

• RS-based ET a estimates for three crops were compared to surface renewal ET a measurements. • pySEBAL and METRIC performed better under full canopy cover than early in the season. • SEBS performed the best among three remote sensing models for daily ET a estimation. • Results show potential of using remote sensing-based ET a in operational irrigation management. Evapotranspiration (ET) is a major hydrologic flux in water resources planning and irrigation management. While recent advances in remote sensing (RS) have enabled availability of high spatial and temporal resolution ET data, a lack of information related to error in the estimations has made it challenging to use this data for on-farm irrigation management decision making. In this study, three commonly used single-source RS based ET models (pySEBAL — a new version of the Surface Energy Balance Algorithm for Land; SEBS — Surface Energy Balance System algorithm; and METRIC — Mapping Evapotranspiration at High Resolution with Internalized Calibration) were used to estimate daily actual evapotranspiration (ET a) for almonds, processing tomatoes, and maize in the Central Valley of California. Model evaluation was conducted by comparing the predicted ET a from RS with in-situ measured ET a using surface renewal. Results indicated that the RS-based ET a estimations for all three models were within acceptable levels of uncertainty and agreed well with surface renewal estimates except for the underestimation by pySEBAL and METRIC during early season growth stages of processing tomatoes. This underestimation was attributed to the lack of accuracy when using single source ET models under lower vegetation cover condition (when ET is dominated by soil evaporation). Better estimates of ET a with pySEBAL and METRIC were detected at full cover, which explains the applicability of these two models to irrigation management during peak crop water demand. SEBS performed the best among the three RS-based models for daily ET a estimation for all crops. This suggests that SEBS-based ET a estimates can be adopted in operational irrigation management programs for farms that have not installed in field ET a sensors such as Tule Sensors (Tule Technologies Inc.). In addition, RS based ET is spatially distributed which can help to identity spatial variability between different irrigation zones. [ABSTRACT FROM AUTHOR]

Published

2020

37. Optimizing Trap Characteristics to Monitor the Leaffooted Bug Leptoglossuszonatus (Heteroptera: Coreidae) in Orchards.

Author

Wilson, Houston, Maccaro, Jessica J., and Daane, Kent M.

Subjects

*HEMIPTERA, *SURFACE texture, *CROP quality, *CROP yields, *TRAPPING, *ORCHARDS, *ALMOND growing

Abstract

The leaffooted bug, Leptoglossuszonatus (Heteroptera: Coreidae), has become a key pest of almonds, pistachios, and pomegranates in California. Adults and nymphs directly feed on nuts and fruits, which reduces crop yield and quality and can facilitate pathogen infections. Current monitoring strategies require growers to actively sample the tree canopy, with no economic thresholds being developed for this pest. To improve monitoring of L.zonatus, a three-year study was conducted to identify an optimal trap. A hanging cross-vane panel trap was identified as the best trap type in Year 1, and subsequent work in Years 1–3 focused on refining its use by modifying surface texture and color. Results indicated that coating trap surfaces with the lubricant fluon improved trap catching ability, and adults were most frequently recovered in yellow traps. A hanging cross-vane panel trap with these features could serve as the basis for the development of a new monitoring system for this pest in orchards, which could be improved further if semiochemical lures will be developed. [ABSTRACT FROM AUTHOR]

Published

2020

38. Idaho almond trial drawing interest from California.

Subjects

ORCHARDS, ALMOND, ALMOND growing, HARVESTING time

Abstract

A major almond trial in Idaho that's been ongoing since 2014 is generating interest among California growers stymied by water and regulatory challenges, an organization is reporting. Related: Almond shipments set new record But Chad Henggeler of Henggeler Packing Co., one of Idaho's largest commercial fruit growers, told the Farm Bureau he's spoken to California growers interested in possibly planting almond orchards in the Gem State. [Extracted from the article]

Published

2021

39. Idaho almond trial drawing interest from California.

Subjects

ALMOND, ALMOND growing, HARVESTING time

Abstract

Related: Almond shipments set new record But Chad Henggeler of Henggeler Packing Co., one of Idaho's largest commercial fruit growers, told the Farm Bureau he's spoken to California growers interested in possibly planting almond orchards in the Gem State. A major almond trial in Idaho that's been ongoing since 2014 is generating interest among California growers stymied by water and regulatory challenges, an organization is reporting. [Extracted from the article]

Published

2021

40. Idaho almond trial drawing interest from California.

Subjects

ORCHARDS, ALMOND, ALMOND growing, HARVESTING time

Abstract

Related: Almond shipments set new record But Chad Henggeler of Henggeler Packing Co., one of Idaho's largest commercial fruit growers, told the Farm Bureau he's spoken to California growers interested in possibly planting almond orchards in the Gem State. A major almond trial in Idaho that's been ongoing since 2014 is generating interest among California growers stymied by water and regulatory challenges, an organization is reporting. [Extracted from the article]

Published

2021

41. Idaho almond trial drawing interest from California.

Subjects

ORCHARDS, ALMOND, ALMOND growing, HARVESTING time

Abstract

A major almond trial in Idaho that's been ongoing since 2014 is generating interest among California growers stymied by water and regulatory challenges, an organization is reporting. Related: Almond shipments set new record But Chad Henggeler of Henggeler Packing Co., one of Idaho's largest commercial fruit growers, told the Farm Bureau he's spoken to California growers interested in possibly planting almond orchards in the Gem State. [Extracted from the article]

Published

2021

42. Idaho almond trial drawing interest from California.

Subjects

ORCHARDS, ALMOND, ALMOND growing, HARVESTING time

Abstract

A major almond trial in Idaho that's been ongoing since 2014 is generating interest among California growers stymied by water and regulatory challenges, an organization is reporting. Related: Almond shipments set new record But Chad Henggeler of Henggeler Packing Co., one of Idaho's largest commercial fruit growers, told the Farm Bureau he's spoken to California growers interested in possibly planting almond orchards in the Gem State. [Extracted from the article]

Published

2021

43. California's bearing almond acreage to increase in 2021.

Subjects

ALMOND growing, ALMOND, AGRICULTURAL statistics

Abstract

A pair of surveys released April 22 show that bearing almond acreage in California grew by nearly 6 percent in 2020 and will continue expanding this year. Total almond acreage, including non-bearing trees, is estimated at 1.6 million, up 5.3% from the previous year. [Extracted from the article]

Published

2021

44. California's bearing almond acreage to increase in 2021.

Subjects

ALMOND growing, ALMOND, AGRICULTURAL statistics

Abstract

A pair of surveys released April 22 show that bearing almond acreage in California grew by nearly 6 percent in 2020 and will continue expanding this year. Total almond acreage, including non-bearing trees, is estimated at 1.6 million, up 5.3% from the previous year. [Extracted from the article]

Published

2021

45. California's bearing almond acreage to increase in 2021.

Subjects

ALMOND growing, ALMOND, AGRICULTURAL statistics

Abstract

Total almond acreage, including non-bearing trees, is estimated at 1.6 million, up 5.3% from the previous year. A pair of surveys released April 22 show that bearing almond acreage in California grew by nearly 6 percent in 2020 and will continue expanding this year. [Extracted from the article]

Published

2021

46. California's bearing almond acreage to increase in 2021.

Subjects

ALMOND growing, ALMOND, AGRICULTURAL statistics

Abstract

Total almond acreage, including non-bearing trees, is estimated at 1.6 million, up 5.3% from the previous year. A pair of surveys released April 22 show that bearing almond acreage in California grew by nearly 6 percent in 2020 and will continue expanding this year. [Extracted from the article]

Published

2021

47. Eight ways UCANR boosts the California economy.

Subjects

CROPS, BUSINESS planning, PEST control, NATURAL resources, ANIMAL owners, AVOCADO, ALMOND growing

Abstract

The University of California's Division of Agriculture and Natural Resources works to benefit the California economy by improving agricultural efficiencies, mitigating risk, providing trusted information to inform policy, combating pests and diseases, advancing agriculture technologies and training the next generation of leaders. UC ANR works to bring new pathogen-tested citrus varieties to California growers. [Extracted from the article]

Published

2021

48. Eight ways UCANR boosts the California economy.

Subjects

CROPS, BUSINESS planning, PEST control, NATURAL resources, ANIMAL owners, AVOCADO, ALMOND growing

Abstract

The University of California's Division of Agriculture and Natural Resources works to benefit the California economy by improving agricultural efficiencies, mitigating risk, providing trusted information to inform policy, combating pests and diseases, advancing agriculture technologies and training the next generation of leaders. UC ANR works to bring new pathogen-tested citrus varieties to California growers. [Extracted from the article]

Published

2021

49. Eight ways UCANR boosts the California economy.

Subjects

BUSINESS planning, PEST control, CROPS, NATURAL resources, ANIMAL owners, AVOCADO, ALMOND growing

Abstract

The University of California's Division of Agriculture and Natural Resources works to benefit the California economy by improving agricultural efficiencies, mitigating risk, providing trusted information to inform policy, combating pests and diseases, advancing agriculture technologies and training the next generation of leaders. UC ANR works to bring new pathogen-tested citrus varieties to California growers. [Extracted from the article]

Published

2021

50. Eight ways UCANR boosts the California economy.

Subjects

CROPS, PEST control, BUSINESS planning, NATURAL resources, ANIMAL owners, AVOCADO, ALMOND growing

Abstract

The University of California's Division of Agriculture and Natural Resources works to benefit the California economy by improving agricultural efficiencies, mitigating risk, providing trusted information to inform policy, combating pests and diseases, advancing agriculture technologies and training the next generation of leaders. UC ANR works to bring new pathogen-tested citrus varieties to California growers. [Extracted from the article]

Published

2021