This document summarizes research on the phenology of the Asian citrus psyllid (Diaphorina citri), an invasive pest in the United States, and its biological control by the parasitoid Tamarixia radiata in urban southern California landscapes. The researchers monitored populations of D. citri and levels of T. radiata parasitism biweekly for 2-3 years on citrus and curry leaf plants at 11 residential sites. Urban D. citri populations were present year-round, with highest densities from July to November. Temperature positively correlated with D. citri densities across all life stages. Lime trees consistently supported the highest densities of psyllid eggs and nymphs, while curry leaf
This study examined the impact of biotic and abiotic factors on the population dynamics of Asian citrus psyllid (Diaphorina citri), a major pest of citrus, in southern California from 2014-2015. 116 experimental cohorts of D. citri were monitored at 3 sites. Cohorts were protected with different mesh enclosures to assess the effects of predators and parasitoids. The main predators were larvae of hoverflies and lacewings, comprising 86% of observed predation. The parasitoid Tamarixia radiata comprised 21% of immature D. citri mortality. Overall, natural enemies reduced D. citri net reproductive rates by 55-95%. Temperature was also found to
Inbreeding depression, reproductive trends, and biological variation in two i...AI Publications
Genetic diversity and inbreeding can affect the long-term viability of plant populations subjected to size reductions, according to theory. In addition, a variety of life-history and ecological features can influence the response to population size reductions in different species. For the uncommon and fragmented Jumellea fragrans and its widely distributed congener, J. rossii, the reproductive patterns, levels of genetic diversity and degree of inbreeding depression were examined. Over-collection and fragmentation on J. fragrans were the primary goals of this study; we also wanted to learn more about their biology and ecology in order to better understand their medicinal and aromatic characteristics. For the purposes of determining the breeding system and assessing inbreeding depression, hand pollination experiments were done. Selfing rates and levels of genetic diversity were studied using nuclear microsatellite markers. During the germination stage (d 14 066) of Jumellea rossii, a mixed-mating system and evidence of inbreeding depression were discovered. Allele richness (AR) was 8 575 and expected heterozygosity (He) was 0 673. The genetic diversity was relatively high. Selfing rates in J. fragrans reflect an outcrossing mating mechanism. It is likely that the low levels of genetic diversity observed in this population were due to the outcrossing mating system and the comparatively high density of individuals compared to those found in J. rossii (AR 14 4983 and He 14 0492). According to researchers, Jumellea fra-grans did not display signs of inbreeding depression. Even if the long-term viability of the J. fragrans population is not in jeopardy, fragmentation and over-collection have likely diminished its genetic diversity. Both in situ and ex situ conservation measures for J. fragrans are proposed in order to meet local demand.
This article lists nectar sources that have been observed and documented to be used by the atala butterfly in Florida. It provides the scientific names and families of over 30 plant species that the atala butterfly has been seen nectaring on. Maintaining populations of both the atala butterfly's larval host plant (coontie) and suitable nectar plants for adults is important for the conservation of this vulnerable species, as development continues to reduce its wild habitat in South Florida. Additional observations of atala butterfly colonies can be found online.
Koi_2015_Bulldozers vs. butterflies-conservation concernsSandy Koi
This document discusses the threats facing endangered butterflies and other invertebrates in South Florida's pine rocklands habitat from urban development and habitat loss. It describes conflicts between conservation and development, including events that destroyed colonies of the endangered Atala Hairstreak butterfly. Ongoing development threatens isolated colonies of other endangered butterflies like the Bartram's Scrub Hairstreak and Florida Leafwing that depend on the unique pine rocklands habitat and host plants. Global biodiversity loss is occurring rapidly as habitats are destroyed and wildlife is fragmented into isolated populations.
Koi & Daniels_2015_New Atala Life history_Florida EntomologistSandy Koi
This document summarizes a study on the life history of the Florida hairstreak butterfly (Eumaeus atala). Key findings include:
- The butterfly was once common in southeast Florida but became rare/extinct due to habitat loss and overharvesting of its host plant. A small population was discovered in 1979.
- The objective of the study was to document life history parameters like longevity, reproduction, and development to help conservation efforts.
- A captive breeding population was established and studied under controlled conditions. Wild larvae and pupae were also collected from natural areas for replenishment.
- Preliminary results found longevity was greater than previously recorded and reproductive behavior supports increased genetic exchange.
Butterflies are important for many reasons such as ecosystem services, research, education, and conservation. They face many threats including habitat loss, climate change, and pesticide use. Conservation strategies aim to address critical information gaps, monitor and protect imperiled species, restore habitats, and involve the public to aid in butterfly recovery efforts.
This study surveyed honey bee colonies in urban, rural, and agricultural areas to examine potential exposure to neonicotinoid pesticides. Beebread (stored pollen) and wax samples were tested for residues of imidacloprid and other neonicotinoids. Samples from agricultural areas were more likely to contain detectable residues of thiamethoxam and clothianidin than rural or urban samples. The maximum residue found was 3.9 ppb of imidacloprid. A risk assessment found the residues posed a low potential for negative effects on bee behavior or health based on a no observable adverse effect concentration. The study aimed to understand pesticide exposure risks to bees foraging near agricultural and urban landscapes.
This document summarizes a study examining the geographic distribution of cytotypes (ploidy levels) in the grass Andropogon gerardii across North America. The study analyzed 352 individuals from 32 populations using flow cytometry to estimate ploidy. It found the two main cytotypes were hexaploid (6x) and enneaploid (9x). Enneaploids were more common in southern regions with reduced summer precipitation and greater temperature variation, while hexaploids dominated in northern areas. Nearly half of populations contained both cytotypes. The results suggest cytotype distribution is nonrandom and associated with environmental variables, and mixed-ploidy populations may be maintained by recurrent polyploid formation
This study examined the impact of biotic and abiotic factors on the population dynamics of Asian citrus psyllid (Diaphorina citri), a major pest of citrus, in southern California from 2014-2015. 116 experimental cohorts of D. citri were monitored at 3 sites. Cohorts were protected with different mesh enclosures to assess the effects of predators and parasitoids. The main predators were larvae of hoverflies and lacewings, comprising 86% of observed predation. The parasitoid Tamarixia radiata comprised 21% of immature D. citri mortality. Overall, natural enemies reduced D. citri net reproductive rates by 55-95%. Temperature was also found to
Inbreeding depression, reproductive trends, and biological variation in two i...AI Publications
Genetic diversity and inbreeding can affect the long-term viability of plant populations subjected to size reductions, according to theory. In addition, a variety of life-history and ecological features can influence the response to population size reductions in different species. For the uncommon and fragmented Jumellea fragrans and its widely distributed congener, J. rossii, the reproductive patterns, levels of genetic diversity and degree of inbreeding depression were examined. Over-collection and fragmentation on J. fragrans were the primary goals of this study; we also wanted to learn more about their biology and ecology in order to better understand their medicinal and aromatic characteristics. For the purposes of determining the breeding system and assessing inbreeding depression, hand pollination experiments were done. Selfing rates and levels of genetic diversity were studied using nuclear microsatellite markers. During the germination stage (d 14 066) of Jumellea rossii, a mixed-mating system and evidence of inbreeding depression were discovered. Allele richness (AR) was 8 575 and expected heterozygosity (He) was 0 673. The genetic diversity was relatively high. Selfing rates in J. fragrans reflect an outcrossing mating mechanism. It is likely that the low levels of genetic diversity observed in this population were due to the outcrossing mating system and the comparatively high density of individuals compared to those found in J. rossii (AR 14 4983 and He 14 0492). According to researchers, Jumellea fra-grans did not display signs of inbreeding depression. Even if the long-term viability of the J. fragrans population is not in jeopardy, fragmentation and over-collection have likely diminished its genetic diversity. Both in situ and ex situ conservation measures for J. fragrans are proposed in order to meet local demand.
This article lists nectar sources that have been observed and documented to be used by the atala butterfly in Florida. It provides the scientific names and families of over 30 plant species that the atala butterfly has been seen nectaring on. Maintaining populations of both the atala butterfly's larval host plant (coontie) and suitable nectar plants for adults is important for the conservation of this vulnerable species, as development continues to reduce its wild habitat in South Florida. Additional observations of atala butterfly colonies can be found online.
Koi_2015_Bulldozers vs. butterflies-conservation concernsSandy Koi
This document discusses the threats facing endangered butterflies and other invertebrates in South Florida's pine rocklands habitat from urban development and habitat loss. It describes conflicts between conservation and development, including events that destroyed colonies of the endangered Atala Hairstreak butterfly. Ongoing development threatens isolated colonies of other endangered butterflies like the Bartram's Scrub Hairstreak and Florida Leafwing that depend on the unique pine rocklands habitat and host plants. Global biodiversity loss is occurring rapidly as habitats are destroyed and wildlife is fragmented into isolated populations.
Koi & Daniels_2015_New Atala Life history_Florida EntomologistSandy Koi
This document summarizes a study on the life history of the Florida hairstreak butterfly (Eumaeus atala). Key findings include:
- The butterfly was once common in southeast Florida but became rare/extinct due to habitat loss and overharvesting of its host plant. A small population was discovered in 1979.
- The objective of the study was to document life history parameters like longevity, reproduction, and development to help conservation efforts.
- A captive breeding population was established and studied under controlled conditions. Wild larvae and pupae were also collected from natural areas for replenishment.
- Preliminary results found longevity was greater than previously recorded and reproductive behavior supports increased genetic exchange.
Butterflies are important for many reasons such as ecosystem services, research, education, and conservation. They face many threats including habitat loss, climate change, and pesticide use. Conservation strategies aim to address critical information gaps, monitor and protect imperiled species, restore habitats, and involve the public to aid in butterfly recovery efforts.
This study surveyed honey bee colonies in urban, rural, and agricultural areas to examine potential exposure to neonicotinoid pesticides. Beebread (stored pollen) and wax samples were tested for residues of imidacloprid and other neonicotinoids. Samples from agricultural areas were more likely to contain detectable residues of thiamethoxam and clothianidin than rural or urban samples. The maximum residue found was 3.9 ppb of imidacloprid. A risk assessment found the residues posed a low potential for negative effects on bee behavior or health based on a no observable adverse effect concentration. The study aimed to understand pesticide exposure risks to bees foraging near agricultural and urban landscapes.
This document summarizes a study examining the geographic distribution of cytotypes (ploidy levels) in the grass Andropogon gerardii across North America. The study analyzed 352 individuals from 32 populations using flow cytometry to estimate ploidy. It found the two main cytotypes were hexaploid (6x) and enneaploid (9x). Enneaploids were more common in southern regions with reduced summer precipitation and greater temperature variation, while hexaploids dominated in northern areas. Nearly half of populations contained both cytotypes. The results suggest cytotype distribution is nonrandom and associated with environmental variables, and mixed-ploidy populations may be maintained by recurrent polyploid formation
This study examined the impact of foliar nutrient applications on Asian citrus psyllid populations and citrus tree physiology. A greenhouse experiment tested calcium and potassium silicate applications alone and in combination on young citrus trees. High temperatures negatively impacted psyllid survival. The largest number of psyllid eggs were found on trees treated with potassium silicate or a combination of calcium and potassium silicate. A field study also tested these treatments but found no impact on leaf calcium or potassium concentrations. While treatments did not significantly increase leaf hardness, a combination of calcium and silicon showed promise and will be explored further. High temperatures limited conclusions from the greenhouse study, requiring it to be repeated under more suitable conditions.
Building a Road Map for North American Crop Wild RelativesCWRofUS
Khoury CK, Greene SL, Moreau T, Krishnan S, Miller A (2019) “Building a Road Map for North American Crop Wild Relatives” Crop Wild Relatives: Developing a Roadmap to Shared Destinations Session, Celebrating Crop Diversity: Connecting Agriculture, Public Gardens, and Science, 2-4 April 2019, Des Moines, USA.
Winged victory for biology students at Canadian Entomological Society meeting...Joanna Konopka
Four Western graduate students won awards at the 2015 Canadian Entomological Society meeting for their research presentations. Yeritza Bohorquez won the President's Prize for Best Speaker: Agriculture for her research on how buckwheat affects wireworm pests. Lauren Des Marteaux won the President's Prize for Best Speaker: Biological Control for her work studying how insect ion transport is affected during chill coma. Vicki Simkovic won the President's Prize: Best Poster for her research on nestmate recognition in eastern subterranean termites. Joanna Konopka received the Graduate Research Travel Scholarship for her work developing imaging techniques and investigating interactions between parasitic wasps and the brown marmorated stink bug pest.
This document summarizes a study that examines the effects of invasive riparian plant species on macroinvertebrate populations in cold water streams. The researchers hypothesize that reaches with invasive species will have higher pollution tolerance scores and lower macroinvertebrate diversity than restored reaches. Samples will be taken from one degraded reach dominated by invasive buckthorn and garlic mustard, and one restored reach. Macroinvertebrates will be identified and riparian plant biomass will be estimated to determine impacts on aquatic communities.
This document summarizes a presentation by Ryan Wersal on alligatorweed, an invasive aquatic plant species. It discusses alligatorweed's origins in South America and impacts as a nuisance species worldwide. The presentation describes alligatorweed's identification features, habitat, distribution in the US, ecological impacts including reduced water quality and access, and management methods such as biological control using beetles or moths and chemical control with herbicides. Contact information is provided for Ryan Wersal as an expert on alligatorweed management.
The document discusses the importance of being a responsible cyber citizen. It provides tips for safe and appropriate online behavior such as using legal sites to download content, keeping personal information private, avoiding cyberbullying and sexting, and reporting any threats or inappropriate behavior to authorities.
Abstract— A study was conducted to determine the population density of the Leaves diggers liriomyzasativae in the Plant Protection Department, college of Agriculture - University of Baghdad, for the period from 01/02/2015 to 15/05/2015.
The study results showed that the highest density of hoof liriomyzasativae 2.7 digger / Leave dated 05/08/2015 and the lowest was 0.3 hoof /leave dated 01/02/2015, and the results showed the presence of three peaks of the pest Nilai starting from 27/2 and ends 3/4. It notes the fluctuation of population density of the hoof between the rise and fall, which dates back to the environmental conditions and the enemies of vital accompaniment of the pest, and the results showed the presence of the enemy's vital Neochrysocharisformosa (Westwood) (Eulophidae: Hymenoptera).
Alien Flora of Ballari District, Karnataka, Indiaijtsrd
The present study deals with comprehensive list of invasive alien species in the flora of Ballari district with background information on family, habit and nativity. Total 215 invasive alien species belonging to 168 genera under 68 families were documented. It was prepared based on history, species origin, species behavior and field observations. Literature and websites were consulted extensively for relevant publications. Almost 54 are native to Tropical America contribute maximum proportion to the invasive alien flora of Ballari district. Habit wise analysis shows herbaceous species share 119 56 species, followed by shrubs 35 16 , climbers 20 9 and trees 42 19 . Among 68 families, Asteraceae is the most dominant family with 27 species 25 followed by Ceasalpinaceae with 14 species 13 . There is an imperative need to listing regional data on exotic species in order to study the impact on local vegetation and survey the worldwide pattern of species invasion. K. Kotresh | M. Siddeshwari "Alien Flora of Ballari District, Karnataka, India" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-1 , December 2020, URL: https://www.ijtsrd.com/papers/ijtsrd35850.pdf Paper URL : https://www.ijtsrd.com/biological-science/botany/35850/alien-flora-of-ballari-district-karnataka-india/k-kotresh
Invasive species boon or bane, by manisha, m.sc(p) botany, roll no. 22Manisha Jangra
This document discusses invasive species, including their characteristics, pathways of introduction, impacts, examples, and control measures. It defines native, non-native, and invasive species, and explains that invasive species are non-native organisms that cause harm. Their traits allow them to outcompete native species, including a wide range, high dispersal/germination, and lack of natural predators. The pathways of introduction include deliberate and accidental means. Invasive species can significantly alter ecosystems and displace native species. The document provides examples like water hyacinth and mentions methods to control invasives.
Genetic diversity in endangered organismssameemakiran
Genetic diversity is important for endangered species survival. Low genetic diversity increases extinction risk as populations lose their ability to adapt. This document discusses how certain endangered species like macaws, pangolins and rafflesia flowers have low genetic diversity due to poaching and habitat loss, making them vulnerable. A genetic rescue experiment introduced new genes to the inbred Florida panther population, increasing genetic diversity and allowing the population to triple in size. Maintaining genetic diversity through conservation of habitats and populations is crucial for species survival.
Trade transport and invasion of alien speciesAmrita Daripa
The ppt is about invasive alien species and how it is being invaded and displacing the native species. The mode of its transport from one place to the other. Its international and national quarantine measures.
Ramírez-Restrepo et al 2016 Tales of Urban Conservation_ Eumaeus butterfliesSandy Koi
This document discusses two species of Eumaeus butterflies (E. childrenae and E. atala) that are utilizing ornamental cycads in urban areas of Xalapa, Mexico and Southeast Florida to reproduce. The butterflies' hostplants, cycads, are threatened but some are being taken from natural habitats and used ornamentally in cities. Observations found colonies of both butterfly species reproducing on ornamental cycads located in public greenspaces, gardens, and other urban areas. The presence of their hostplants in cities allows these otherwise threatened species to thrive in urban environments. The document argues this shows how urban areas can support biodiversity if fundamental habitat requirements are provided, and that these butterfly-
This document discusses key concepts of natural selection including how the environment influences which traits are selected for, how environmental change can impact species survival, why inherited not acquired traits are involved in natural selection, and the relationship between mutation and natural selection. It also provides an example of leaf insects that resemble plant branches and asks how Lamarck and Darwin would explain this adaptation.
This document discusses the history and effects of the pesticide DDT. It was first used in the early 1900s to combat malaria, and its cheap price led to widespread agricultural use. While DDT was blamed for thinning bird eggshells and decreasing bird populations, the document argues there was no accurate scientific evidence of these effects. It aims to show a different perspective on DDT and analyze claims made against it. The research methodology and sources are described, and it is argued that DDT was unfairly banned based on one opinionated book rather than facts, while overlooking its benefits in saving lives from malaria.
This document summarizes a capstone project that studied pollinator values at three sites - the DiTullio Homestead, Water Tower Hill, and Roger's Landing. The author recorded plant species and their pollinator values on a scale of 0-3 at each site using 1m x 1m plots. The results provide information on the best pollinator plants and habitats for bees and other insects at each location. The goal was to identify high-value plants suitable for home gardens to attract native pollinators.
This document provides an overview of invasive species for gardeners. It defines invasive species as alien species that cause economic, environmental, or health harm. Invasive species cost Americans $143 billion per year by destroying habitats and outcompeting native plants and animals. The document discusses the biology and management of invasive species and provides examples of common invasive plant species in the region. It recommends actions gardeners can take to prevent the spread of invasives, such as growing native plants, properly disposing of plant materials, and monitoring for new invaders. Resources for more information on invasive species are also listed.
Invasive species are non-native plants and animals that can cause harm to the environment, economies, and human health. Their populations grow rapidly in new environments without natural controls. Examples discussed include the Canada goose and Canadian waterweed, both of which were introduced outside their native ranges and now outcompete other species. Invasive species are introduced both intentionally and accidentally by human activities, and their impacts can cost billions of dollars. Identification and removal efforts aim to control the spread of harmful invasive populations.
Este documento describe seis herramientas de la Web 2.0: blogs, redes sociales, contenidos multimedia, bookmarking, almacenamientos en nubes y wikis. Los blogs permiten a los autores publicar información sobre temas específicos. Las redes sociales permiten a las personas conectarse y compartir contenido con amigos. Los contenidos multimedia incluyen texto, imágenes, audio y video. El bookmarking permite clasificar y compartir enlaces. Los almacenamientos en la nube almacenan datos de forma remota. Las wikis son sitios colab
Este documento describe los pasos para realizar un ensayo metalográfico. Inicialmente, las probetas son desbastadas con lijas de grano grueso a fino. Luego son pulidas con óxido de aluminio para igualar la superficie. A continuación, son reveladas con una solución de Nital 5 para observar la estructura. Por último, se observan las probetas con un microscopio de 10 a 50 aumentos para comprobar el material.
This study examined the impact of foliar nutrient applications on Asian citrus psyllid populations and citrus tree physiology. A greenhouse experiment tested calcium and potassium silicate applications alone and in combination on young citrus trees. High temperatures negatively impacted psyllid survival. The largest number of psyllid eggs were found on trees treated with potassium silicate or a combination of calcium and potassium silicate. A field study also tested these treatments but found no impact on leaf calcium or potassium concentrations. While treatments did not significantly increase leaf hardness, a combination of calcium and silicon showed promise and will be explored further. High temperatures limited conclusions from the greenhouse study, requiring it to be repeated under more suitable conditions.
Building a Road Map for North American Crop Wild RelativesCWRofUS
Khoury CK, Greene SL, Moreau T, Krishnan S, Miller A (2019) “Building a Road Map for North American Crop Wild Relatives” Crop Wild Relatives: Developing a Roadmap to Shared Destinations Session, Celebrating Crop Diversity: Connecting Agriculture, Public Gardens, and Science, 2-4 April 2019, Des Moines, USA.
Winged victory for biology students at Canadian Entomological Society meeting...Joanna Konopka
Four Western graduate students won awards at the 2015 Canadian Entomological Society meeting for their research presentations. Yeritza Bohorquez won the President's Prize for Best Speaker: Agriculture for her research on how buckwheat affects wireworm pests. Lauren Des Marteaux won the President's Prize for Best Speaker: Biological Control for her work studying how insect ion transport is affected during chill coma. Vicki Simkovic won the President's Prize: Best Poster for her research on nestmate recognition in eastern subterranean termites. Joanna Konopka received the Graduate Research Travel Scholarship for her work developing imaging techniques and investigating interactions between parasitic wasps and the brown marmorated stink bug pest.
This document summarizes a study that examines the effects of invasive riparian plant species on macroinvertebrate populations in cold water streams. The researchers hypothesize that reaches with invasive species will have higher pollution tolerance scores and lower macroinvertebrate diversity than restored reaches. Samples will be taken from one degraded reach dominated by invasive buckthorn and garlic mustard, and one restored reach. Macroinvertebrates will be identified and riparian plant biomass will be estimated to determine impacts on aquatic communities.
This document summarizes a presentation by Ryan Wersal on alligatorweed, an invasive aquatic plant species. It discusses alligatorweed's origins in South America and impacts as a nuisance species worldwide. The presentation describes alligatorweed's identification features, habitat, distribution in the US, ecological impacts including reduced water quality and access, and management methods such as biological control using beetles or moths and chemical control with herbicides. Contact information is provided for Ryan Wersal as an expert on alligatorweed management.
The document discusses the importance of being a responsible cyber citizen. It provides tips for safe and appropriate online behavior such as using legal sites to download content, keeping personal information private, avoiding cyberbullying and sexting, and reporting any threats or inappropriate behavior to authorities.
Abstract— A study was conducted to determine the population density of the Leaves diggers liriomyzasativae in the Plant Protection Department, college of Agriculture - University of Baghdad, for the period from 01/02/2015 to 15/05/2015.
The study results showed that the highest density of hoof liriomyzasativae 2.7 digger / Leave dated 05/08/2015 and the lowest was 0.3 hoof /leave dated 01/02/2015, and the results showed the presence of three peaks of the pest Nilai starting from 27/2 and ends 3/4. It notes the fluctuation of population density of the hoof between the rise and fall, which dates back to the environmental conditions and the enemies of vital accompaniment of the pest, and the results showed the presence of the enemy's vital Neochrysocharisformosa (Westwood) (Eulophidae: Hymenoptera).
Alien Flora of Ballari District, Karnataka, Indiaijtsrd
The present study deals with comprehensive list of invasive alien species in the flora of Ballari district with background information on family, habit and nativity. Total 215 invasive alien species belonging to 168 genera under 68 families were documented. It was prepared based on history, species origin, species behavior and field observations. Literature and websites were consulted extensively for relevant publications. Almost 54 are native to Tropical America contribute maximum proportion to the invasive alien flora of Ballari district. Habit wise analysis shows herbaceous species share 119 56 species, followed by shrubs 35 16 , climbers 20 9 and trees 42 19 . Among 68 families, Asteraceae is the most dominant family with 27 species 25 followed by Ceasalpinaceae with 14 species 13 . There is an imperative need to listing regional data on exotic species in order to study the impact on local vegetation and survey the worldwide pattern of species invasion. K. Kotresh | M. Siddeshwari "Alien Flora of Ballari District, Karnataka, India" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-1 , December 2020, URL: https://www.ijtsrd.com/papers/ijtsrd35850.pdf Paper URL : https://www.ijtsrd.com/biological-science/botany/35850/alien-flora-of-ballari-district-karnataka-india/k-kotresh
Invasive species boon or bane, by manisha, m.sc(p) botany, roll no. 22Manisha Jangra
This document discusses invasive species, including their characteristics, pathways of introduction, impacts, examples, and control measures. It defines native, non-native, and invasive species, and explains that invasive species are non-native organisms that cause harm. Their traits allow them to outcompete native species, including a wide range, high dispersal/germination, and lack of natural predators. The pathways of introduction include deliberate and accidental means. Invasive species can significantly alter ecosystems and displace native species. The document provides examples like water hyacinth and mentions methods to control invasives.
Genetic diversity in endangered organismssameemakiran
Genetic diversity is important for endangered species survival. Low genetic diversity increases extinction risk as populations lose their ability to adapt. This document discusses how certain endangered species like macaws, pangolins and rafflesia flowers have low genetic diversity due to poaching and habitat loss, making them vulnerable. A genetic rescue experiment introduced new genes to the inbred Florida panther population, increasing genetic diversity and allowing the population to triple in size. Maintaining genetic diversity through conservation of habitats and populations is crucial for species survival.
Trade transport and invasion of alien speciesAmrita Daripa
The ppt is about invasive alien species and how it is being invaded and displacing the native species. The mode of its transport from one place to the other. Its international and national quarantine measures.
Ramírez-Restrepo et al 2016 Tales of Urban Conservation_ Eumaeus butterfliesSandy Koi
This document discusses two species of Eumaeus butterflies (E. childrenae and E. atala) that are utilizing ornamental cycads in urban areas of Xalapa, Mexico and Southeast Florida to reproduce. The butterflies' hostplants, cycads, are threatened but some are being taken from natural habitats and used ornamentally in cities. Observations found colonies of both butterfly species reproducing on ornamental cycads located in public greenspaces, gardens, and other urban areas. The presence of their hostplants in cities allows these otherwise threatened species to thrive in urban environments. The document argues this shows how urban areas can support biodiversity if fundamental habitat requirements are provided, and that these butterfly-
This document discusses key concepts of natural selection including how the environment influences which traits are selected for, how environmental change can impact species survival, why inherited not acquired traits are involved in natural selection, and the relationship between mutation and natural selection. It also provides an example of leaf insects that resemble plant branches and asks how Lamarck and Darwin would explain this adaptation.
This document discusses the history and effects of the pesticide DDT. It was first used in the early 1900s to combat malaria, and its cheap price led to widespread agricultural use. While DDT was blamed for thinning bird eggshells and decreasing bird populations, the document argues there was no accurate scientific evidence of these effects. It aims to show a different perspective on DDT and analyze claims made against it. The research methodology and sources are described, and it is argued that DDT was unfairly banned based on one opinionated book rather than facts, while overlooking its benefits in saving lives from malaria.
This document summarizes a capstone project that studied pollinator values at three sites - the DiTullio Homestead, Water Tower Hill, and Roger's Landing. The author recorded plant species and their pollinator values on a scale of 0-3 at each site using 1m x 1m plots. The results provide information on the best pollinator plants and habitats for bees and other insects at each location. The goal was to identify high-value plants suitable for home gardens to attract native pollinators.
This document provides an overview of invasive species for gardeners. It defines invasive species as alien species that cause economic, environmental, or health harm. Invasive species cost Americans $143 billion per year by destroying habitats and outcompeting native plants and animals. The document discusses the biology and management of invasive species and provides examples of common invasive plant species in the region. It recommends actions gardeners can take to prevent the spread of invasives, such as growing native plants, properly disposing of plant materials, and monitoring for new invaders. Resources for more information on invasive species are also listed.
Invasive species are non-native plants and animals that can cause harm to the environment, economies, and human health. Their populations grow rapidly in new environments without natural controls. Examples discussed include the Canada goose and Canadian waterweed, both of which were introduced outside their native ranges and now outcompete other species. Invasive species are introduced both intentionally and accidentally by human activities, and their impacts can cost billions of dollars. Identification and removal efforts aim to control the spread of harmful invasive populations.
Este documento describe seis herramientas de la Web 2.0: blogs, redes sociales, contenidos multimedia, bookmarking, almacenamientos en nubes y wikis. Los blogs permiten a los autores publicar información sobre temas específicos. Las redes sociales permiten a las personas conectarse y compartir contenido con amigos. Los contenidos multimedia incluyen texto, imágenes, audio y video. El bookmarking permite clasificar y compartir enlaces. Los almacenamientos en la nube almacenan datos de forma remota. Las wikis son sitios colab
Este documento describe los pasos para realizar un ensayo metalográfico. Inicialmente, las probetas son desbastadas con lijas de grano grueso a fino. Luego son pulidas con óxido de aluminio para igualar la superficie. A continuación, son reveladas con una solución de Nital 5 para observar la estructura. Por último, se observan las probetas con un microscopio de 10 a 50 aumentos para comprobar el material.
Este documento define las startups como organizaciones con gran capacidad de cambio que desarrollan productos o servicios innovadores altamente deseados por el mercado. Describe características esenciales como la ausencia de política, la misión sobre el trabajo, la tolerancia a la mediocridad y el enfoque en el cliente. También diferencia las startups de las PYMES e identifica la importancia de la idea pero no de depender solo de ella. Finalmente, presenta 11 ejemplos exitosos de startups como Instagram, 2tor, Global Giving y SinDelantal.
Musik Eropa berkembang sejak runtuhnya Romawi Kuno hingga Reformasi Agama. Zaman Renaissance menandai kebangkitan kesenian dan munculnya jenis musik baru. Pada abad ke-18, musik menjadi lebih teratur dengan penggunaan akord tiga nada dan perubahan tempo. Komponis seperti Haydn dan Mozart populer pada masa itu. Abad ke-19 musik digunakan untuk mengekspresikan perasaan dengan komponis seperti Beet
Tema 1 la sociedad del conocimiento.pptxGuille santos
Este documento describe la evolución de las sociedades humanas desde las sociedades agrarias y artesanales hasta la actual sociedad del conocimiento, caracterizada por el uso generalizado de Internet y las tecnologías de la información y comunicación. También analiza conceptos clave como la identidad digital, la huella digital, la reputación online y la importancia de seguir las normas de la netiqueta en Internet.
This document summarizes the author's observations of their brother's JV baseball team. The author studied the team to understand how they work as a group and what needs improvement as they have a losing record. Through attending practices and games, the author observed that the team has strong bonds and encourages each other, but their on-field chemistry is lacking. While players try individually, they do not always work as a cohesive unit. The coaches also get frustrated during losses but keep the team motivated. The author came to understand the close relationships that keep the team playing as a group despite challenges.
This document discusses logging for containers and microservices. It covers structured logging formats like JSON, logging drivers for Docker, challenges of logging at scale, and logging solutions like Fluentd and Fluent Bit. It highlights features like pluggable architectures, high performance, and support for aggregation patterns to optimize logging workflows.
This document lists 47 song titles written by Murad Camarad Wysinger between 2017-2022. The song titles focus on themes of Islam, getting rich, movies, staying positive, and avoiding violence. They were written in collaboration with other artists and copyrighted under Dubsac Entertainment.
The document appears to be lyrics for a song written by Murad Camarad Wysinger. It was written with several other artists listed and copyrighted by Dubsac Entertainment. The lyrics describe the author and other artists mentioned as being real Aztec and Aalifian people who handle their business as West Coast riders and veterans. It discusses their flow and style as being authentic to their Aztec and Aalifian heritages.
This document appears to be lyrics or poetry written by Murad Camarad Wysinger and others listed as co-writers. In 3 short stanzas, the writer expresses that they are doing "this chit" and staying "real cool" while telling the listener how it is. They reference "cuccin" and "fuccin" while also using profanity. The writer signs off by mentioning their "real ass homie" Murad also known as Camarad and memories they have shared.
The document discusses the goals and vision of the Architectural Solar Association (ASA) which advocates for greater integration of solar power into building designs. The ASA aims to change standards and regulations, create demand, and adoption within the building industry. It defines building integrated photovoltaics (BIPV) and outlines opportunities for integration in facades, roofs, canopies and other architectural elements. Commercially available BIPV solutions are presented along with their benefits of distributed energy generation, multi-functional design, and reduced costs. The future of BIPV is promising for aesthetically superior, more functional buildings if effectively integrated within the building industry.
Este documento describe el perfil del emprendedor actual. Explica que el emprendimiento se ha vuelto importante para superar problemas económicos y la única opción para obtener ingresos decentes en América Latina, donde los niveles de desempleo son altos. Un buen emprendedor muestra características como crecimiento personal, liderazgo, orientación comercial y persistencia. Finalmente, el documento recomienda que el emprendimiento es la mejor manera de salir adelante en situaciones de crisis y mejorar la calidad de vida.
Informe de instalación de dos (2) sistemas operativos (windows y linux) en una misma maquina virtual, con arranque dual.
La versión de windows es xp y la de linux ubunntu.
Fetouh Reda Abou El Fetouh Badawy is seeking a position as an HSE Manager or HSE Engineer. He has over 10 years of experience in health and safety roles on various construction projects in Egypt, Saudi Arabia, and other locations. He is skilled in safety inspections, audits, risk assessments, investigations, and developing health and safety plans. He has a bachelor's degree in geology and various safety certifications.
The document discusses trends in fiscal decentralization in Karnataka, India. It finds that while PRIs (Panchayati Raj Institutions) are legally mandated to spend 33% of the state budget, they are actually allocated only 17.5%, indicating resistance to devolution. It also finds that expenditures by line departments and other bodies within Gram Panchayat jurisdictions far exceed GP expenditures, but GPs have no information on these funds. The document recommends reviews to ensure allocations match functions, scheme rationalization, and thematic block grants to allow PRIs flexibility in planning according to local needs and priorities.
This document provides creative questions to help analyze characters by imagining if the character were different objects or concepts. It asks the reader to consider what shape, car, weather system, article of clothing, book genre, song, piece of furniture, element of nature, food, number, or sound the character would be. It concludes by asking if the reader would want to be this character and why or why not. The questions are meant to provoke deep thought about a character's traits, personality, and essence.
Angular2 is better, faster, and stronger than Angular1 in several ways:
1. Angular2 improves change detection, reduces concepts, and uses TypeScript as a first-class citizen.
2. Features like AOT, tree shaking, lazy loading, and RxJS observables make Angular2 faster and more efficient.
3. Angular2 has an upgrade path and is focused on components, allowing it to be used everywhere from native mobile to desktop apps.
Shiv Sinha is seeking a challenging position with opportunity for growth. He has over 10 years of experience in sales and relationship management for financial services companies like Bajaj Finserv and Standard Chartered Bank. His skills include business development, team leadership, and exceeding sales targets across product lines such as loans, insurance, and wealth management. He is motivated, a strong decision-maker, and has received several performance awards throughout his career.
This document summarizes research on managing Huanglongbing (HLB), or citrus greening disease, in organic citrus systems. HLB is caused by bacteria that is transmitted by the Asian citrus psyllid. Most HLB research focuses on non-organic methods like pesticides, but some techniques from conventional studies could work for organic farms. These include biological control using ladybugs, parasitic wasps, and fungi to control the psyllid vector. Cultural methods like protective screens and intercropping with beneficial plants are also discussed. While HLB management is challenging for organic farmers, the document concludes that using prevention strategies, tolerant varieties, biological controls and nutrition can help organic growers produce marketable citrus crops
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the Environment.
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Global change, global trade, and the next wave of plant invasions
Author(s): Bethany A Bradley, Dana M Blumenthal, Regan Early, Edwin D Grosholz, Joshua J
Lawler, Luke P Miller, Cascade JB Sorte, Carla M D'Antonio, Jeffrey M Diez, Jeffrey S Dukes,
Ines Ibanez and Julian D Olden
Source: Frontiers in Ecology and the Environment, Vol. 10, No. 1 (February 2012), pp. 20-28
Published by: Ecological Society of America
Stable URL: http://www.jstor.org/stable/41479982
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REVIEWS REVIEWS REVIEWS
Global
change, global trade,
and the next
wave of
plant
invasions
Bethany A Bradley1*, Dana M Blumenthal2, Regan Early3, Edwin D Grosholz4, Joshua J Lawler5, Luke P Miller6,
Cascade JB Sorte7, Carla M D'Antonio8, Jeffrey M Diez9, Jeffrey S Dukes10, Ines Ibanez9, and Julian D Olden11
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at
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screening
species
a
new
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range
assessment
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doorstep.
increase
types
and
of
measures
new
of
show
species
invasion
strategies
Here,
invasive
invaders
that
are
to
we
adapted
preve.
This document summarizes an article that discusses emerging plant diseases under a changing climate scenario and the threats they pose to global food supply. It highlights some historical emerging diseases that have had devastating impacts, like the potato and rice famines in Ireland and Bengal respectively. It also discusses factors that can contribute to the emergence and spread of pathogens, like continual pathogen evolution, introduction of new crop species and varieties, and favorable environmental conditions. The document then reviews some recently emerging and globally spreading plant diseases that are listed as quarantined pathogens, such as rust diseases affecting blueberries and avocados, as well as viruses transmitted by insect vectors. It emphasizes the risks these pathogens pose and the need for international research networks and policies to address destructive quar
Inhibition of bacterial soft rot (Research Paper)Tony Ng
Bacterial soft rot has caused more crop losses worldwide than any other bacterial disease. Current methods of inhibiting bacterial soft rot, such as using chemicals, proved to be inefficient and not environmentally-friendly. In order to develop a more environmentally-friendly and cost effective product to curb bacterial soft rot, tannic acid and green tea extract were tested for their effectiveness against the plant pathogen and causative agent for soft rot, Pectobacterium carotovorum.
BACTERIOPHAGE THERAPY IN AQUACULTURE – FRIEND OR FOEAusPhage
This document discusses the potential for using bacteriophages (phages) as an alternative to antibiotics in aquaculture to control pathogenic bacteria. Phages are viruses that infect and kill specific bacteria. They have been used therapeutically in Eastern Europe for over 60 years with proven success. The growth of aquaculture is limited by infectious disease outbreaks caused by bacteria like Vibrio and Aeromonas. While vaccines and management practices have helped, antibiotic resistance is a major concern. Phages offer a natural solution as they can target antibiotic-resistant bacteria and replicate at the infection site. The document reviews phage biology and therapy approaches, noting that virulent phages are best for killing pathogens without transferring genes. It compares advantages
This study aims to determine if the native herbivore Tansyphyrus lemnae shows a preference for native duckweed species over the invasive Lemna minuta. The study will compare the feeding rates of T. lemnae on L. minor, Spirodela polyrhiza, and L. minuta, and assess the impact of herbivory on the growth of L. minor and L. minuta. The results could provide insight into how L. minuta gains a competitive advantage by facing less pressure from native herbivores.
Development and evaluation of a trapping system for Anoplophora glabripennis ...Myers Shaiyen
This document describes the development and evaluation of a trapping system for the invasive Asian longhorned beetle (Anoplophora glabripennis) in Massachusetts. Over 4 years, 1013 traps baited with different lure combinations were deployed in the Worcester area. The lures contained various releases of the male-produced pheromone, plant volatiles, and combinations. A total of 45 beetles were captured in 40 traps with lures. Trap catches helped locate previously unknown infestations and studies continue to optimize lure composition and placement.
This document provides an overview of the potential for Moringa oleifera trees to address malnutrition in Haiti. It begins with background on Haiti's challenges with malnutrition and food insecurity. It then discusses the moringa tree's nutrition profile and interventions using moringa in other countries. The document argues that promoting home gardens with moringa trees could help address malnutrition through a food-based approach, and that a multisectoral social marketing strategy could promote adoption of moringa cultivation and consumption in Haiti.
This document summarizes information about ornamental plants and their pests, with a focus on armored scale insects. It discusses three main categories of plants (agricultural, weedy, ornamental), then describes the economic importance and diversity of ornamental plants. It notes that armored scale insects are well-adapted pests of ornamentals in urban settings. The document then examines the pest status and damage from armored scale insects on ornamentals, as well as control methods like oils, insecticides, and integrated pest management. It provides details on the cactus scale as a representative pest of succulents.
Importance and management of fusarium wilt (Fusarium udum Butler) of pigeonpe...Innspub Net
Fusarium wilt (Fusarium udum Butler) is an important soil borne disease of pigeonpea [Cajanus cajan (L.) Millsp], which causes significant yield losses in susceptible cultivars throughout the pigeonpea growing areas. The soil borne fungus enters the host vascular system at root tips through wounds leading to progressive chlorosis of leaves, branches, wilting and collapse of the root system. Temperature, soil type, water retentive nature of the soil and nutrient availability has been shown to affect fusarium population. Disease management strategies have emphasized on integrated disease management practices. Despite extensive pathological and molecular studies, the nature and extent of pathogenic variability in F. udum has not been clearly established. Information on characterization of F. udum is needed to help identify race differentials. In addition, there is limited knowledge on the inheritance of fusarium wilt and other important traits in pigeonpea thus limiting specific cultivar improvement. This paper reviews the literature on the distribution, symptomalogy, factors that affect its development and control strategies of the disease. Get the full articles at: http://www.innspub.net/volume-2-number-1-january-2012-4/
Pratylenchus vulnus is a plant-pathogenic nematode that infects the roots of many plants, including Persian walnut, grapes, citrus, stone fruits, and berries. It causes lesions on roots that reduce plant vigor and yield. P. vulnus has a wide host range and is established throughout California, where it is a primary cause of tree decline. Management strategies include nematicides, hot water treatment of roots, and using tolerant rootstocks, though options are now more limited since the loss of methyl bromide and DBCP.
Biological invasions theories and hypothesis.pdfkanchan parajuli
The document discusses several theories and hypotheses of biological invasion. It defines biological invasion as the process by which species breach biogeographic barriers and extend their range into new areas. The document then discusses definitions of invasive alien species and some common traits that allow species to become invasive. Several hypotheses are described, including the tens rule, biotic resistance hypothesis, biotic acceptance hypothesis, island susceptibility hypothesis, novel weapon hypothesis, enemy release hypothesis, climate matching hypothesis, and invasional meltdown theory. Examples of invasional meltdown involving zebra mussels and cheatgrass are provided.
Biological control of insect pest and disease of citrusManish pal
The document summarizes the current status and potential of biological control for insect pests and diseases affecting citrus. It outlines that citrus faces numerous pests and diseases that are currently controlled through pesticides, but that biological control provides an environmentally friendly alternative. The document then reviews several major citrus pests and diseases, their impacts, and examples of existing or potential biological control agents being used against each one. It concludes that biological control alone or as part of integrated pest management is an effective non-chemical strategy for controlling citrus pests.
Malaria remains one of the deadliest diseases globally, killing nearly 1 million people annually. In 1998, the Roll Back Malaria Partnership was created by the WHO, UNICEF, World Bank, and UNDP to combat malaria through coordinated control, prevention, and treatment efforts. While RBM has achieved some successes like saving over 1 million lives, it continues to struggle with inadequate funding to meet its goals of eventually eradicating malaria. The document explores RBM's history and efforts to address the extensive social, economic, environmental, and public health challenges posed by malaria.
Chemical and ecological control methods for Epitrix spp.GJESM Publication
Very little information exists in regards to the control options available for potato flea beetles, Epitrix spp. This short review covers both chemical and ecological options currently available for control of Epitrix spp. Synthetic pyrethroids are the weapon of choice for the beetles. However, the impetus in integrated pest management is
to do timely (early-season) applications with something harsh which will give long-term protection at a time when there are not a lot of beneficials in the field. Finding the balance for control of Epitrix spp. is proving difficult.
2[Unit VI and VII, Body Section You will find the body pa.docxrobert345678
2
[Unit VI and VII, Body Section: You will find the body paragraphs on pp. 7–9, located in the blue outlined section. The body section should be placed in the paper after the Introduction and Literature Review.]
S
ave the Bees: The Negative Effects of Neonicotinoids on Bee Populations
Tamika Diggs
Columbia Southern University
EH 1020 English Composition II
Dr. Renee Reynolds
January 5, 2021
Save the Bees: The Negative Effects of Pesticides on Bee Populations
The argument concerning whether a ban should be placed on pesticides has been a source of contention since the publishing of Rachel Carson’s groundbreaking book
Silent Spring in 1962
. In her book, Carson (1962) highlights the dangers of pesticide use by describing the effects of dichloro-diphenyl-trichloroethane (DDT) on birds of prey including peregrine falcons, osprey, and bald eagles. DDT has since been banned, but many pesticides are still being used today. Proponents for banning pesticides acknowledge that while they may present a short-term solution to issues such as insect infestations, the long-term effects of pesticide exposure cannot be ignored. On the other hand, those in favor of pesticide use argue that the benefits often outweigh the risks, as pesticides are responsible for maximizing crop yields while also reducing the risk of disease in humans and livestock. Within the last 20 years, beekeepers have begun to witness record losses in their bee populations. The phenomenon is known as colony collapse disorder (CCD), and beekeepers affected by CCD have reported losses as high as 50–90%, sometimes within a matter of weeks (Kluser et al., 2010). Research has pointed to pesticide usage, specifically neonicotinoids (neonics), as a potential cause of CCD. According to research, neonicotinoids are used in agriculture to kill pests such as aphids and grubs but are indirectly impacting bees (Pesticide Action Network, 2017). Bees are responsible for pollinating most of the world’s crops, therefore many are advocating for the ban of neonics. However, the opposing side argues that the research naming neonics as the culprit of sudden bee deaths is weak, and that neonics are safe for use. Also, government entities like the Environmental Protection Agency (EPA) are concerned about the negative impact a pesticide ban would have on disease control. In addition, the economic impact on farmers due to a loss in crop yields resulting from a pesticide ban would be costly. While there would be an initial cost to explore alternative methods, continuing to expose key pollinators to harmful pesticides should not continue. Therefore, neonicotinoids should not be used due to their harmful effects on bees. Instead, alternatives such as integrated pest management (IPM), should be utilized.
Review of Literature
In order to better understand the controversy concerning neonicotinoid use and its effects on bee populations, it is necessary to revie.
Abstract— This study was conducted to identify, test the pathogenicity of strawberry root and stalk rot pathogens and evaluate the efficiency of some biocontrol agents and fungicides to control the disease. The isolation and identification of fungi associated with infected plant samples showed that Rhizoctonia solani was detected in all studied commercial strawberry lath houses at different location of Baghdad-Iraq. The frequency percentages ranged 25.5-63.5 % and 10.75 - 40 % for Rhizoctonia solani and Phymatotrichopsis omnivora respectively. Pathogenicity test revealed R. solani and P. omnivora isolates were highly pathogenic to strawberry plants. The disease severity percentages of R. solani and P. omnivora were 83.0-100% and 55.5-62.0 % respectively. The isolates HRs3 and KPh1 of R. solani and P. omnivora respectively, caused the highest disease were used during this study. The control agents Rizolex and Tachigarin fungicides, Azotobacter chroococcum and Pseudomonas fluorescens have shown high efficiency against R. solani and P. omnivora on culture media (PDA).
The treatment of biocontrol agent’s A. chroococcum and P. fluorescens and the fungicide Rizolex and Preserve Pro showed high efficiency in disease control and enhance plants growth under greenhouse conditions. Disease severities on foliar and root system in A. chroococcum , Rizolex , Preserve Pro and P. fluorescens were 6,66 and 0.00 %, 20.00 and 0.00 %,13.33 and 0.00 % and 13.33and 0.00 % respectively in plants infected with R. solani .Whereas they were 6.66 and 0.00%, 13.33 and 0.00 %,13.33 and 0.00 %,and 13.33 and 0.00 % respectively in plants infected with P. omnivora. This study is the first report of the occurrence of root and stalk rot disease caused by R. solani and P. omnivora on strawberry plants in Iraq.
Genetic Variability, Heritability for Late leaf Spot tolerance and Productivi...IOSR Journals
This document summarizes a study on genetic variability, heritability, and traits related to late leaf spot tolerance and productivity in a recombinant inbred line population of groundnut. The study evaluated 106 recombinant inbred lines plus parental lines. High genetic variation was observed for traits related to late leaf spot score, yield, and other components. High heritability and genetic advance were found for traits like late leaf spot score, 100-seed weight, and haulm weight per plant, indicating these are controlled by additive genes and good for selection. Several lines were identified with improved late leaf spot tolerance, early maturity, yield, and other traits.
Nature is under siege. In the last 10,000 y the humanpopulation has grown from 1 million to 7.8 billion.Much of Earth’s arable lands are already in agriculture(1), millions of acres of tropical forest are clearedeach year (2, 3), atmospheric CO2levels are at theirhighest concentrations in more than 3 million y (4), andclimates are erratically and steadily changing frompole to pole, triggering unprecedented droughts,fires, and floods across continents. Indeed, most biol-ogists agree that the world has entered its sixth massextinction event, the first since the end of the Creta-ceous Period 66 million y ago, when more than 80% ofall species, including the nonavian dinosaurs, perished.
This is an eletter published following the paper by Estrada et al 2017 (Sc Advances). The eletter concentrates on the impact of the recent yellow fever outbreak on primates and humans in Brazil.
Similar to acp-phenology-in-urban-socal-jee-2016 (20)
1. Biological and Microbial Control
Phenology of Asian Citrus Psyllid (Hemiptera: Liviidae),
With Special Reference to Biological Control by Tamarixia
radiata, in the Residential Landscape of Southern
California
Erica J. Kistner,1,3
Ruth Amrich,1
Martin Castillo,1
Vincent Strode,1
and
Mark S. Hoddle1,2
1
Department of Entomology, University of California, Riverside, CA 92507 (ekistner@ucr.edu; ruth.amrich@ucr.edu;
martin.castillo@ucr.edu; vincent.strode@ucr.edu; mark.hoddle@ucr.edu), 2
Center for Invasive Species Research, University of
California, Riverside, CA 92507, 3
Corresponding author, e-mail: ekistner@ucr.edu
Received 3 September 2015; Accepted 28 January 2016
Abstract
Since its discovery in 2008, the pestiferous Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera:
Liviidae), has become widely established in residential citrus trees throughout southern California. In 2011,
Tamarixia radiata (Waterston) (Hymenoptera: Eulophidae), a host-specific parasitoid of D. citri, sourced from
Punjab Pakistan, was introduced into California as part of a classical biological program aimed at suppressing
D. citri populations in urban areas. Despite these release efforts, little is known about the population dynamics
of D. citri in urban citrus or the efficacy of T. radiata in controlling psyllid populations in urban-grown citrus. To
address this shortcoming, the population phenology of D. citri was monitored biweekly for 2–3 yr on five differ-
ent host plants (Rutaceae) at 11 residential sites across Riverside and Los Angeles Counties in southern
California. Citrus flush growth patterns and parasitoid activity levels were also assessed. Urban D. citri popula-
tions were present year round at each site, with highest densities occurring over July through November.
Temperature was an important indicator of overall D. citri densities with positive correlations across all life
stages. Regularly flushing lime trees consistently supported the highest densities of psyllid eggs and nymphs,
while equally vigorous flushing curry leaf plants supported the highest adult densities. While T. radiata activity
was detected at all sites, average year-round percent parasitism was low throughout the study, averaging <5%
in 2012, 2013, and 2014.
Key words: Diaphorina citri, urban entomology, phenology, Tamarixia radiata, biocontrol
The Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera:
Liviidae), is an invasive citrus pest in the United States (US) that
vectors the phloem-dwelling bacterium, Candidatus Liberibacter asi-
aticus (CLas), that causes a lethal citrus disease known as huan-
glongbing (HLB) (Halbert and Manjunath 2004, Hall et al. 2012).
CLas infection leads to foliage dieback, seed malformation, and
significant yield reductions, and susceptible citrus varieties can die
5–8 yr postinfection (Bove´ 2006). In the US, D. citri has been re-
corded from the states of Alabama, Arizona, California, Florida,
Hawaii, Louisiana, Mississippi, South Carolina, and Texas (Center
for Environmental and Research Information Systems [CERIS]
2015). Subsequently, CLas has been detected in Florida (first de-
tected in 2005), Louisiana (2008), South Carolina (2009), Georgia
(2009), Texas (2012), and California (2012) (CERIS 2016). The
joint invasion of D. citri and CLas has drastically altered commer-
cial citrus production in the US (Hall et al. 2012). In Florida, D. citri
and HLB were first found in 1998 and 2005, respectively, and both
are widespread throughout the state (Halbert and Manjunath 2004,
Bove´ 2006, Hall and Albrigo 2007). Some estimates suggest that
>75% of Florida’s citrus trees may be infected with CLas (Hall
et al. 2012). The D. citri–CLas pathosystem has reduced the produc-
tion of citrus in Florida to its lowest levels since the 1960s with over
US$2 billion in estimated net losses (Hodges and Spreen 2012).
Thus, this vector–plant pathogen complex is currently considered
the greatest threat the US citrus industry has to manage (Hall et al.
2012).
In August 2008, D. citri was first discovered in San Diego
County, California. This invasion is attributed to a northward range
expansion from Mexico where D. citri and HLB are widespread
(Grafton-Cardwell 2010). D. citri feeds on many Citrus (Sapindales:
Rutaceae) cultivars and the related curry leaf plant, Murraya koeni-
gii (L.) Sprengel (Rutaceae) (Tsai et al. 2002, Chan et al. 2011).
VC The Authors 2016. Published by Oxford University Press on behalf of Entomological Society of America.
All rights reserved. For Permissions, please email: journals.permissions@oup.com 1047
Journal of Economic Entomology, 109(3), 2016, 1047–1057
doi: 10.1093/jee/tow021
Advance Access Publication Date: 8 March 2016
Research article
atDonThomsononJune3,2016http://jee.oxfordjournals.org/Downloadedfrom
2. Citrus and to a lesser extent curry leaf plants, are widely planted in
the residential landscape of southern California. Since its introduc-
tion in California, D. citri has become widespread in urban areas
across San Diego, Imperial, Riverside, Los Angeles, Orange, and San
Bernardino Counties. Smaller populations have been detected in
Ventura, Tulare, Kern, Fresno, San Joaquin, Santa Clara, Santa
Barbara, and San Lius Obispo Counties, and captures have been
confirmed as far north as San Jose (Civerolo 2015). D. citri has
likely established permanent populations in the San Joaquin Valley
where 85% of California’s US$3 billion citrus industry is located
(Grafton-Cardwell et al. 2015). In 2012, CLas was detected in a sin-
gle residential tree in Los Angeles County (Kumagai et al. 2013) and
additional cases within 25 km of the original Clas detection site have
subsequently been reported in California’s urban landscape (CDFA
2015). Extensive management efforts similar to ongoing programs
in Florida (Halbert and Manjanath 2004, Hall et al. 2012) are cur-
rently underway in California in an attempt to mitigate the threat
this vector–pathogen complex poses to California’s iconic citrus
crop.
Although HLB has not yet gained a foothold in California’s com-
mercial groves, there is a serious threat of CLas transmission by D.
citri migrating between unmanaged residential landscapes into com-
mercial citrus production areas (Boina et al. 2009). Adult D. citri
have strong dispersal capabilities, thereby enabling D. citri incursion
and potential establishment in both agricultural and urban habitats
(Chong et al. 2010, Godfrey et al. 2013, Lewis-Rosenblum et al.
2015). Since $36% of southern Californian gardens have citrus
(Hoddle and Pandey 2014), management of urban D. citri popula-
tions is less straightforward compared to those in commercial or-
chards where insecticide applications to reduce vector densities are
the standard D. citri control strategy (Grafton-Cardwell 2014,
Richards et al. 2014). Chemical spray programs in urban areas in
California have been abandoned due to a combination of high costs
and some public resistance to pesticide applications to privately
owned trees (Hoddle and Pandey 2014). Consequently, in the ab-
sence of insecticide treatments urban citrus provides a large refuge
for D. citri which in turn likely increases the risk of CLas acquisition
and spread that subsequently leads to HLB epidemics (Bassanezi
et al. 2013).
A major component of California’s emerging D. citri manage-
ment program is classical biological control with host-specific para-
sitoids (Hoddle and Hoddle 2013, Hoddle and Pandey 2014,
Bistline-East et al. 2015, Kistner and Hoddle 2015a). In December
2011, releases of Tamarixia radiata (Waterston) (Hymenoptera:
Eulophidae), a host-specific parasitoid of D. citri sourced from
Punjab Pakistan commenced. T. radiata is an ectoparasitoid that
preferentially parasitizes fourth- and fifth-instar nymphs (Gomez-
Torres et al. 2012). In addition to parasitism, female T. radiata can
kill D. citri nymphs through host feeding (Chien et al. 1995).
Worldwide, T. radiata is the most commonly employed parasitoid
used for classical biological control of D. citri in many major citrus-
growing regions (Halbert and Manjunath 2004, Hall et al. 2012). In
California, the goal of this classical biological control program is to
suppress urban D. citri population growth and spread where insecti-
cide use targeting D. citri is infrequent with the intent of reducing
the frequency of CLas acquisition and spread by this pest (Hoddle
and Hoddle 2013, Hoddle and Pandey 2014, Kistner and Hoddle
2015a).
While T. radiata has provided significant suppression of D. citri
on Re´union Island (E` tienne and Aubert 1980) and Puerto Rico
(Pluke et al. 2005), extensive research indicates that this parasitoid
has provided low levels of control in Florida (Tsai et al. 2002,
Michaud 2004, Hall et al. 2008, 2012, Qureshi et al. 2009, Hall
and Rohrig 2015). In Florida, D. citri mortality from parasitism is
low (5%; Michaud 2004, Qureshi and Stansly 2009), even in or-
ganic orchards and urban sites not treated with insecticides (Hall
et al. 2008, 2012). There are several possible explanations for the
poor performance of T. radiata in Florida. First, the extensive use of
chemical control in Florida commercial citrus groves reduces T. radi-
ata numbers (Hall and Nguyen 2010, Ferrer et al. 2011). Second,
the low genetic diversity of T. radiata halotypes released in Florida
may compromise parasitoid fitness (Barr et al. 2009, Hall et al.
2012). Third, intraguild predation by coccinellids (Michaud 2004)
and ant mutualisms have been observed to reduce T. radiata parasit-
ism rates (Navarrete et al. 2013). Finally, cultural practices such as
frequent hedging of ornamental jasmine plants, Murraya paniculata
(L.) Jack, a preferred D. citri host in urban areas, reduce urban
T. radiata populations by removing flush with parasitized nymphs,
resulting in death of the immature parasitoids while promoting
D. citri outbreaks when hedged plants flush again (Chong et al.
2010, Hall and Rohrig 2015).
In an attempt to ensure T. radiata establishment and maximize
efficacy in California, parasitoids for use in a classical biological
control program were sourced from Punjab Pakistan, an area with
$70% climate match with major citrus production areas in
California (Hoddle 2012). To preserve the genetic diversity of quar-
antine reared parasitoids, 17 different populations of T. radiata col-
lected from Pakistan were maintained as isocage lines (Roush and
Hopper 1995, Hoddle and Hoddle 2013). An HLB risk assessment
model (Gottwald et al. 2014) is used by the California Department
of Food and Agriculture (CDFA) to target releases of T. radiata in
predicted high risk D. citri-HLB urban areas with the aim of reduc-
ing vector densities in these areas where CLas maybe present but un-
detected. As of July 2015, CDFA has released $2,000,000
parasitoids at 4,000 sites across southern California. In southern
California, parasitoid activity has been detected at over 100 differ-
ent release sites indicating that T. radiata has established multiple
stable populations in urban areas, some organic orchards, and it has
spread unassisted to sites where it was not released (Hoddle and
Hoddle 2013, Kistner and Hoddle 2015a). Despite the large ongoing
release program and recoveries of T. radiata in southern California,
the efficacy of T. radiata in controlling urban D. citri population
growth in California remains largely unknown.
To address this shortcoming, urban D. citri populations were
monitored across southern California for up to three years to evalu-
ate the efficacy of this classical biological control program in
California. Here, we report on the phenology of D. citri and T. radi-
ata on five different types of host plants across 11 sites in Riverside
and Los Angeles Counties. The results of these surveys are reported
here, and these data provide important measures of D. citri and T.
radiata activity at a very early stage of the biological control
program.
Materials and Methods
Study Sites
Eleven urban sites for monitoring D. citri densities, host plant flush-
ing patterns, and parasitoid activity were selected based on
University of California Riverside (UCR) and CDFA T. radiata re-
lease data. Five sites in Los Angeles County were set up in 2012 and
surveys ran for three consecutive years at these sites (Table 1). In
2013, six additional sites, three sites in Riverside County and three
in Los Angeles County, were added. Surveys at these latter six sites
1048 Journal of Economic Entomology, 2016, Vol. 109, No. 3
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3. were conducted for two consecutive years (Table 1). T. radiata was
purposely released as part of the classical biocontrol program at five
of the 11 survey sites. Additional T. radiata release information is
provided in Supp. Table 1 (online only). GPS coordinates were ob-
tained for each designated survey tree using a handheld Garmin GPS
unit (GPSMP 64, Garmin Ltd., Lenexa, KS). The phenology study
consisted of 11 orange, 11 lemon, three lime, three grapefruit, and
two curry leaf plants (Murraya koenigii, [Rutaceae]), a close relative
of citrus for a total of 30 study trees (Table 1). Survey trees across
all study sites were healthy, mature (5 yr of age), and easily access-
ible. Each survey tree was divided into four designated quadrants
(north, east, west, and south), and trees were monitored biweekly
for densities of adult and immature (i.e., eggs, small nymphs [instars
1–3], and large nymphs [instars 4–5]) D. citri, immature leaf flush
patterns, and T. radiata activity.
Surveys for Adult D. citri and Calculation of Insect Days
Timed 2 min D. citri adult counts were made in each of the four
quadrants of each experimental tree for a total of 8 min per tree.
The mean biweekly number of adult D. citri per tree was converted
to cumulative insect days (i.e., adult-days). This technique combines
time and the number of insects observed as a way of estimating the
area under the population curve for each tree and represents the
insect burden on host plants that can be compared to determine site
effects (Ruppel 1983, Khan et al. 2014). The adult-days for each
sampling period was estimated as
adult-days ¼ Xiþ1 À Xið Þ ðYiþYiþ1Þ=2
 Ã
where Xi and Xiþ1 are adjacent sampling periods and Yi and Yiþ1
are the corresponding insect counts. The cumulative adult days was
then computed by sequentially summing the individual biweekly in-
sect days over the course of the survey for each individual tree sur-
veyed. Cumulative insect-days per tree can then be averaged to
provide an estimate of the mean insect load across study trees. This
method enabled us to compare adult D. citri population densities
over the entire survey period within and across host plants located
in different sites.
Monitoring Host Plant Flush Phenology, D. citri Eggs,
Nymphs, and Percent Parasitism
D. citri population growth is limited by the availability of flush
growth on host trees (Hall et al. 2008). Therefore, leaf growth on
each tree, in each quadrant, was estimated biweekly using a standar-
dized area of 172 cm2
which was delineated using a metal hoop
(37 cm radius). The hoop was randomly set along the tree’s outer fo-
liage at shoulder height and only branches that terminated inside the
hoop were inspected. Leaf growth at the end of each branch was as-
sessed for the presence or absence of flush growth. Flush growth
consisted of three age-sequential stages, all of which are character-
ized by soft, light green tissue (Chan et al. 2011). In contrast, non-
flush growth consists of stiff, dark green, mature leaves. These data
were used to determine percentage flush growth (i.e., number of
branches with flush growth/[(number of flush growth branches þ
nonflush growth branches) x 100]) per tree at each sampling site
and date (Khan et al. 2014). After flush counts were completed, two
branches with flush from each quadrant were sampled from outside
the hoop for a total of 8 branch samples per tree. The branch sam-
ples were returned to the UCR Insectary Quarantine facility for
processing in compliance with CDFA permit number 2870. In quar-
antine, branch samples were refrigerated and processed over a 1–2-d
period. Branch processing involved measuring the length of flush
Table1.SiteinformationforselectedD.citriandT.radiataphenologysurveysitesinurbanareasofsouthernCalifornia
SitestreetStartdateEnddateLocationCountyTree(s)TamarixiaStatus
PennMar25Jan.201225Jan.201534
030
88.4800
N;118
040
45.6300
W;elevation71mLosAngeles1limeInvadeda,b
Maplefield25Jan.201225Jan.201534
040
42.7900
N;118
020
14.0200
W;elevation44mLosAngeles1lemon632releasedc
over4events
Poinsettia25Jan.201225Jan.201534
050
36.4500
N;118
010
07.1200
W;elevation87mLosAngeles1lemonInvadedd
Strozier25Jan.201225Jan.201534
040
71.3100
N;118
050
02.7100
W;elevation73mLosAngeles1lemonInvadede
Badillo25Jan.201225Jan.201534
080
74.5000
N;117
940
57.9700
W;193mLosAngeles1lemonInvadedf
RodewayInn16Jan.201325Jan.201534
120
18.7500
N;117
900
70.2200
W;166mLosAngeles2curryleafplants903releasedover9events
Asuza16Jan.201325Jan.201534
120
88.2500
N;117
900
74.3000
W;159mLosAngeles2orange,2lemon1,859releasedover11events
Lochmoor16Jan.201325Jan.201533
950
37.4400
N;117
310
50.7700
W;420mRiverside2lemon,2orange,2grapefruit2,089releasedover9events
Jurupa16Jan.201325Jan.201533
990
29.7500
N;117
500
61.3700
W;214mRiverside2lemon,2lime,1orange,1grapefruit791releasedover6events
Indiana16Jan.201325Jan.201533
880
36.4000
N;117
490
73.9200
W;293mRiverside6orangesInvadedg
Maywood16Jan.201325Jan.201533
980
38.2500
N;118
170
89.7400
W;43mLosAngeles1lemonInvadedh
a
InvadedindicatesthatT.radiatacolonizedthesitewithoutdeliberatehumanassistance.
b
0.2kmawayfromnearestreleasesite.
c
ReleasedindicatesthatT.radiatawasdeliberatelyreleasedatsiteaspartofthebiocontrolprogram.
d
1.4kmfromnearestreleasesite.
e
0.8kmfromnearestreleasesite.
f
2.4kmfromnearestreleasesite.
g
1.4kmfromnearestreleasesite.
h
0.75kmfromnearestreleasesite.
Journal of Economic Entomology, 2016, Vol. 109, No. 3 1049
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4. and counting the number of D. citri eggs, first–third instars (small
nymphs), and fourth–fifth instars (big nymphs) for each tree by sam-
pling date and location (Kistner and Hoddle 2015a). Mean biweekly
numbers of D. citri eggs, first–third instars, and fourth–fifth instars
per centimeter of branch were then converted to cumulative insect
days (i.e., egg and nymph-days) per tree, which provided an estimate
of the total egg or nymph population load on trees per site over the
entire survey period (Ruppel 1983). These calculations were identi-
cal to those discussed above to calculate adult-days. Parasitism of D.
citri nymphs was determined by lifting each nymph off the host stra-
tum and using a microscope to check the ventral side for the pres-
ence of T. radiata eggs (found on the anterior edge of the third pair
of coxa), larvae, or pupae. Any parasitoids found were recorded by
sampling date and site, removed, and preserved in 95% ethanol in
labeled vials for future genetic analyses. These data were used to de-
termine actual percentage parasitism of nymphs (i.e., total number
of parasitized nymphs/[(total number of nonparasitized large
nymphs þ total number of parasitized large nymphs) Â 100]). Mean
actual percentage parasitism was calculated for each tree by sam-
pling date and location.
Meteorological Data
Mean biweekly maximum, minimum, and average temperatures;
relative humidity; and rainfall data were obtained from seven nearby
weather stations. Weather stations used were: Rosemead Gardens
(34
030
N, 118
020
W) for Penn Mar, Maplefield, Poinsettia, and
Strozier; South Gate Park for Maywood (33
940
N, 118
180
W);
Baldwin Park-Denovo Dental (34
100
N, 117
970
W) for Badillo;
Rosedale Community #1 Station (34
140
N, 117
900
W) for Asuza
and Rodeway Inn; Arlington Heights (33
890
N, 117
470
W) for
Indiana; Canyon Crest Golf (33
950
N, 117
330
W) for Lochmoor;
and Cloverdale Estates (33
970
N, 117
560
W) for Jurupa. All wea-
ther stations were within 1–8 km of each study site (The Weather
Underground 2015). Climate data were used to prepare average bi-
weekly summaries for temperature, humidity, and rainfall for sites
over the duration of the study (Suppl. Fig. 1 [online only]).
Statistical Analysis
Before analyses were conducted, data were assessed for normality
using the Shapiro–Wilk’s test. Cumulative D. citri days across all life
stages (eggs, first–third instars, fourth–fifth instars, and adults) were
log transformed while actual percent parasitism and percent flush
growth were arcsine root-transformed (Zar 1999). Sample periods
with no D. citri fourth–fifth instars present were excluded from per-
centage parasitism analyses because T. radiata exclusively parasitizes
these large nymphs (Gomez-Torres et al. 2012). Since only five Los
Angeles County sites, each containing one tree, were surveyed in
2012, one-way repeated measures ANOVAs were run for actual per-
cent parasitism, and percent flush growth to compare within year
phenology data differences between sites. Phenology data collected
from 2013–2015 were analyzed separately because six additional
sites were added in 2013 for a grand total of 11 sites monitored
from 2013–2015. To avoid temporal and spatial pseudoreplication,
we employed linear mixed models with site, host plant (oranges,
lemons, limes, grapefruit, and curry leaf plants), and year (2013 and
2014), as fixed variables, with repeated measures (i.e., sample date)
taken on trees nested within sites as random variables (Crawley
2013). Models examining differences in cumulative D. citri days
only included tree as a random variable since this value is the sum of
all insect density measurements per tree in 2013 and 2014. Linear
mixed models were run for each cumulative D. citri day per life
stage, actual percent parasitism, and percent flush growth to com-
pare differences in phenology data between host plants within and
across sites. In the percent parasitism models, we also included T.
radiata release status, “invaded” (self-introduced from neighboring
release sites) versus “released” (i.e., deliberately released at a study
site as part of the biological control program) as a fixed variable.
This was necessary, as T. radiata was only deliberately released at
five out of the 11 study sites as part of the biological control pro-
gram and this parasitoid invaded the other six sites without human
assistance. Significant differences between site and host plant means
when detected were separated with Tukey’s HSD at the 0.05 level of
significance. Repeated measure ANOVAs and linear mixed models
were run using the lme4 package in R 3.2.0 (Bates et al. 2014).
For both the 2012 and the 2013–2015 datasets, Pearson correl-
ation analyses were performed using the stats package in R.3.2.0
(R Development Core Team 2015) to assess the relationship be-
tween D. citri life stage densities, percent parasitism, percent flush
growth, and environmental conditions (temperature, relative humid-
ity, and rainfall). All statistical analyses were conducted in R 3.2.0
(R Development Core Team 2015).
Results
D. citri Phenology on Different Host Plants
Biweekly mean egg densities on host plants experienced two small
population spikes in January and April 2012 and two larger spikes
in September and November 2012 (Fig. 1A). Mean biweekly
2012 egg densities were positively correlated with average tem-
perature (r ¼ 0.14; P ¼ 0.01) and percentage flush growth (r ¼ 0.13;
P ¼ 0.01), but were not correlated with rainfall or relative humidity
(P 0.05). In 2013, mean biweekly egg densities experienced popu-
lation spikes in March through June, August, and October through
December (Fig. 1A). In 2014, egg densities exhibited small spikes in
January, April, and May (Fig. 1A). Mean biweekly egg densities in
2013 and 2014 were positively correlated with average temperature
(r ¼ 0.21; P 0.01) and percent flush growth (r ¼ 0.17; P ¼ 0.01),
but were not correlated with rainfall or relative humidity (P 0.05).
Mean biweekly first–third instar densities on lime experienced
major population spikes in January and November as well as minor
peaks in May, July, and August through September 2012; densities on
lemon exhibited smaller population spikes with the largest occurring
in September 2012 (Fig. 1B). Mean biweekly first–third instar den-
sities in 2012 were positively correlated with average temperature
(r ¼ 0.38; P 0.001), but were not correlated with percent flush
growth, rainfall, or relative humidity (P 0.05). Mean biweekly first–
third instar densities persisted at low levels year round on all host
plants when flush was present with major population spikes occurring
in both spring and fall of 2013 and 2014 (Fig. 1B). Lime hosted
the highest first–third instar densities in late August–November of
2013 (Fig. 1B). Mean biweekly first–third instar densities from 2013–
2015 were positively correlated with average temperature (r ¼ 0.32;
P ¼ 0.01) and percentage flush growth (r ¼ 0.23; P ¼ 0.01), but were
not correlated with rainfall or relative humidity (P 0.05).
D. citri fourth–fifth instars reached their highest densities begin-
ning in September before declining in November, but overall densities
remained low throughout 2012 (Fig. 1C). Mean biweekly fourth–fifth
instar densities in 2012 were positively correlated with average tem-
perature (r ¼ 0.44; P 0.001) and negatively correlated with rainfall
(r ¼ À0.37; P 0.001). No significant correlations were found be-
tween 2012 mean biweekly fourth–fifth instar densities and percent-
age flush growth, relative humidity, or parasitism rates (P 0.05).
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5. In 2013, mean biweekly fourth–fifth instar densities experienced a
minor spike in May and two major spikes in August and October
through December (Fig. 1C). In contrast, only one minor population
spike occurred in 2014 during May (Fig. 1C). Mean biweekly fourth–
fifth instar densities from 2013–2015 were positively correlated
with average temperature (r ¼ 0.25; P 0.01) and negatively corre-
lated with rainfall (r ¼ À0.12; P 0.05). No significant correlations
were found between 2013–2015 biweekly fourth–fifth instar densities
and percentage flush growth, relative humidity, or parasitism rates
(P 0.05).
Mean biweekly adult densities on lime were highest in January
2012 followed by a slight increase in March 2012 and a more gradual
population build up beginning in September 2012 before declining
again in December 2012 (Fig. 1D). Adult density fluctuations on
lemon were less pronounced than lime with densities increasing in
June, and reaching an asymptote in September that held until the end
of 2012 (Fig. 1D). Mean biweekly adult densities in 2012 were posi-
tively correlated with average temperature (r ¼ 0.22; P ¼ 0.02), but
were not correlated with percentage flush growth, rainfall, or relative
humidity (P 0.05). In 2013, mean biweekly adult densities on all
host plants experienced one population spike from April to May fol-
lowed by a second peak in August through November (Fig. 1D). In
2014, adult densities on curry leaf plants increased rapidly in June fol-
lowed by two smaller peaks in September and November (Fig. 1D).
Adult populations on grapefruit spiked in October 2014 while adult
densities on lemon, orange and lime exhibited minor peaks in the
spring and fall of 2014 (Fig. 1D). Mean biweekly adult densities from
2013–2015 were positively correlated with average temperature
(r ¼ 0.14; P 0.001) and percent flush growth (r ¼ 0.11; P ¼ 0.02),
but were not correlated with rainfall or relative humidity (P 0.05).
Comparison of Cumulative D. citri Days on Different
Hosts Plants Within and Across Sites
D. citri Egg-Days
From 2013 to 2015, cumulative D. citri egg-days differed across the
five host plants (F ¼ 24.85; df ¼ 4, 13; P 0.001; Fig. 2) and the 11
study sites (F ¼ 10.64; df ¼ 10, 13; P 0.001). Cumulative egg-days
did not differ between years (F ¼ 1.18; df ¼ 1, 13; P ¼ 0.28). The
year by host plant (F ¼ 2.76; df ¼ 4, 13; P ¼ 0.04), year by site
(F ¼ 1.94; df ¼ 10, 13; P ¼ 0.04; Suppl. Fig. 2A [online only]), and
site by host plant interactions (F ¼ 16.11; df ¼ 4, 13; P 0.001;
Suppl. Fig. 3A [online only]) were all significant. Mean cumulative
egg-days were highest for lime compared to all other host plants
(Tukey HSD 0.01; Fig. 2).
D. citri First–Third Instar-Days
From 2013 to 2015, cumulative D. citri first–third instar-days differed
across the five host plants (F ¼ 36.21; df ¼ 3, 13; P 0.001; Fig. 2)
and the 11 study sites (F¼ 39.31; df¼ 10, 13; P 0.001). Cumulative
first–third instar-days did not differ between years (F¼ 0.31; df¼ 1,
13; P ¼ 0.58). The year by host plant (F¼ 3.72; df¼ 4, 13; P ¼ 0.01),
year by site (F ¼ 4.08; df¼ 10, 13; P 0.001; Supp. Fig. 2B [online
only]), and site by host plant interactions were all significant
Fig. 1. Relationship between host plants and biweekly D. citri population densities. (A) Mean number of D. citri eggs per centimeter of branch sample. (B) Mean
number of D. citri first–third instars per centimeter of branch sample. (C) Mean number of D. citri fourth–fifth instars per centimeter of branch sample. (D) Mean
number of D. citri adults per tree from 2-min visual counts. D. citri numbers for each host plant were averaged across Los Angeles and Riverside County study
sites. D. citri population data in 2012 were collected solely from lemon and lime trees within Los Angeles County.
Journal of Economic Entomology, 2016, Vol. 109, No. 3 1051
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6. (F¼ 25.17; df¼ 4, 13; P 0.001; Suppl. Fig. 3B [online only]). Mean
cumulative first–third instar-days were highest on limes (Tukey
HSD 0.01) and lowest on grapefruit (Tukey HSD 0.01; Fig. 2).
D. citri Fourth–Fifth Instar-Days
From 2013 to 2015, cumulative D. citri fourth–fifth instar-days dif-
fered across the five host plants (F ¼ 7.49; df ¼ 4, 13; P 0.001; Fig.
2) and the 11 study sites (F ¼ 9.91; df ¼ 10, 13; P 0.001). In 2014,
cumulative fourth–fifth instar-days declined by 28% (F ¼ 19.48;
df ¼ 1, 13; P 0.001; Fig. 1C). The host plant by year (F ¼ 4.79;
df ¼ 4, 13; P ¼ 0.002), site by year (F ¼ 4.61; df ¼ 10, 13; P 0.00;
Suppl. Fig. 2C [online only]), site by host plant (F ¼ 15.00; df ¼ 4,
13; P 0.001; Suppl. Fig. 3C [online only]), and site by host plant
by year (F ¼ 3.98; df ¼ 4, 13; P ¼ 0.007) interactions were also sig-
nificant. Like earlier D. citri life stages, mean cumulative fourth–fif-
th instar-days were highest on limes (Tukey HSD 0.01) and lowest
on grapefruit (Tukey HSD 0.01; Fig. 2).
D. citri Adult-Days
From 2013 to 2015, cumulative D. citri adult-days differed across the
five host plants (F¼ 77.88; df¼ 4, 13; P 0.001; Fig. 2) and the 11
study sites (F¼ 26.39; df¼ 10, 13; P 0.001). Cumulative adult-days
did not differ between years (F ¼ 0.31; df¼ 1, 13; P ¼ 0.10), but there
were significant year by site (F ¼ 4.08; df¼ 10, 13; P 0.001; Suppl.
Fig. 2D [online only]) and site by host plant (F ¼ 15.00; df¼ 4, 13;
P 0.001; Suppl. Fig. 3D [online only]) interactions. Mean cumula-
tive adult days were 125% higher on curry leaf plants compared to all
other host plants (Tukey HSD 0.01; Fig. 2).
Citrus Flush Patterns
In 2012, percent flush growth varied significantly across the five Los
Angeles County sites (F ¼ 7.64; df ¼ 4, 88; P 0.001), which was
due, in part, to differences in host plant flushing patterns. Limes pro-
duced high levels of flush from January to March and exhibited
smaller peaks in flush production in April, May, October, and
November 2012; no flush was produced from June through
September 2012 (Fig. 3A). Lemons consistently produced flush year
round and peak lemon flushing events coincided with limes
(Fig. 3A). Percent flush growth in 2012 was negatively correlated
with average temperature (r ¼ À0.43; P 0.001), and was not corre-
lated with rainfall or relative humidity (P 0.05).
From 2013 to 2015, percent flush growth varied across the 11
study sites (F ¼ 9.11; df ¼ 10, 1533; P 0.001) and the five host
plants (F ¼ 2.66; df ¼ 4, 1533; P ¼ 0.03), but not between years
(F ¼ 0.28; df ¼ 1, 1533; P ¼ 0.60). There was a significant year by
host plant interaction (F ¼ 3.40; df ¼ 1, 1533; P ¼ 0.02), suggesting
that host plants responded differently to climatic variation between
years. The site by host plant (F ¼ 1.53; df ¼ 4, 1533; P ¼ 0.20), site
by year (F ¼ 1.04; df ¼ 10, 1533; P ¼ 0.40), and site by year by host
plant (F ¼ 1.39; df ¼ 4, 1533; P ¼ 0.24) interaction terms were not
significant. Differences in flushing patterns among sites were
strongly influenced by host plant and climate. All host plants ex-
hibited a major flush event beginning in January and ending in
March in 2013 and 2014 (Fig. 3A). Limes and curry leaf plants had
the highest percent flush growth compared to the other host plants
(Tukey HSD 0.05). While lemon flushed more frequently than
grapefruit or orange, these three host plants did not differ in overall
percent flush growth since orange and grapefruit exhibited greater
flush growth during major flush events (Tukey HSD 0.05;
Fig. 3A). Percent flush growth from 2013–2015 was negatively cor-
related with average temperature (r ¼ À0.28; P 0.001), but was
not correlated with rainfall or relative humidity (P 0.05).
Parasitism by T. radiata
In 2012, mean parasitism rates were low, averaging $ 0.6% (range,
0–7.6%) and did not differ across the five Los Angeles County sites
(F ¼ 0.35; df ¼ 4, 76; P ¼ 0.84; Suppl. Fig. 4). Parasitoid activity on
lemons peaked in November 2012 while parasitoid activity on limes
peaked in December 2012 (Fig. 3B). No correlations were found be-
tween percent parasitism and any climatic factors, percent flush
growth, or D. citri densities (P 0.05) in 2012.
From 2013 to 2015, mean parasitism rates remained low, averag-
ing $ 5.0% (range, 0–18.6%) across the 11 study sites. Mean parasit-
ism rates varied significantly across host plant (F¼ 32.04; df¼ 4, 606;
P 0.001; Fig. 3B), sites (F ¼ 12.68; df¼ 10, 606; P 0.001; Suppl.
Fig. 4), and T. radiata release status (F ¼ 13.78; df¼ 1, 606;
P 0.001), but not between years (F ¼ 0.18; df¼ 1, 606; P ¼ 0.67).
Fig. 2. Mean (6 SE; untransformed) cumulative D. citri egg, first–third instar, fourth–fifth instar, and adult days from 2013–2015 on oranges, lemons, limes, grape-
fruit, and curry leaf plants. Different letters within a life stage indicate significant differences between host plants (Tukey HSD test, P 0.05). D. citri days for each
host plant were averaged across eight Los Angeles and three Riverside County study sites.
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7. The year by host plant interaction term (F¼ 2.75; df¼ 4, 606;
P ¼ 0.04) was significant. The year by T. radiata release status
(F¼ 0.38; df¼ 1, 606; P ¼ 0.41), site by year (F¼ 0.89; df¼ 4, 633;
P ¼ 0.53), and site by year by host plant (F¼ 0.43; df¼ 4, 633;
P ¼ 0.73) interaction terms were not significant. Major parasitoid
activity on most host plants was observed in fall of 2013 and 2014
(Fig. 3B), following summer population growth of D. citri fourth–fifth
instars (Fig. 1C). Parasitoid activity on oranges, limes, and curry leaf
plants decreased substantially in winter and remained low over
spring. Interestingly, lemons exhibited parasitoid activity year round
(Fig. 3B), as well as the highest overall parasitism rates compared to
all other host plants (Tukey HSD 0.01). Overall parasitism rates
were significantly higher at Lochmoor in Riverside County, averaging
18.6%, compared to all other sites (Tukey HSD 0.001). Parasitism
rates also varied within host plants across sites as indicated by the sig-
nificant site by host plant interaction term (F ¼ 24.86; df¼ 10, 606;
P 0.001). For instance, lemons at Lochmoor, a designated T. radiata
release site in Riverside County, exhibited a 40-fold greater mean
parasitism rate compared to all other sites by lemon trees (Tukey
HSD 0.05; Fig. 4). In contrast, no parasitoid activity was detected
on grapefruit trees at Lochmoor and Jurupa, oranges at Azusa, or lem-
ons at Badillo and Maplefield (Fig. 4). No correlations were found be-
tween 2013–2015 parasitism rates and any climatic factors, percent
flush growth, or D. citri densities (P 0.05).
Fig. 3. (A) Biweekly flushing patterns for oranges, lemons, limes, grapefruit, and curry leaf plants combined across Los Angeles and Riverside County study sites.
(B) Biweekly percentage parasitism trends for T. radiata attacking D. citri nymphs on oranges, lemons, limes, grapefruit, and curry leaf plants. Parasitism data
were combined for each host plant across Los Angeles and Riverside County study sites. Flush and parasitism data from 2012 were only collected from lemon
and lime trees within Los Angeles County.
Journal of Economic Entomology, 2016, Vol. 109, No. 3 1053
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8. Discussion
This work is the first major study to document D. citri phenology,
T. radiata activity, and flush phenology on five different types of
host plants in southern California. Although we did find significant
declines in D. citri populations across the majority of our survey
sites since the introduction of T. radiata, solid evidence for T. radi-
ata-driven suppression of D. citri populations was not detected
using the survey methods employed. Urban D. citri densities varied
greatly across and within sites, host plants, and years. D. citri popu-
lations consistently peaked in the fall and spring, but the magnitude
of these seasonal fluctuations varied spatially and temporarily. Our
results indicated that lime consistently supported higher immature
D. citri densities while curry leaf plants supported the largest num-
bers of adults. We suspect that greater frequency and intensity of
flush growth allowed limes to support higher densities of D. citri
eggs and nymphs while a combination of flush availability and olfac-
tory cues attracted more D. citri adults to curry leaf plants. Previous
studies indicate that the volatile chemical composition of curry leaf
plants (Robbins et al. 2012) and closely related orange jasmine
plants, Murraya paniculata (L.) Jack, act as strong D. citri attract-
ants (Patt and Setamou 2010). All D. citri life stage densities were
positively correlated with temperature, suggesting that citrus grow-
ing in warmer inland sites may consistently host higher D. citri
densities. While parasitism rates during the course of the study were
low, seven out of the eleven study sites exhibited significant
decreases in adult D. citri numbers since the biological control
program with T. radiata began in California. The reasons for this
decline are not well understood and further studies (e.g., life table
analyses) that quantify the effects of biotic and abiotic factors affect-
ing urban D. citri densities and phenology are warranted.
The seasonal availability of flush growth greatly influences the
phenology of D. citri, as this pest oviposits and small nymphs de-
velop almost exclusively on young flush (Hall et al. 2008). In our
study, increases in D. citri egg, first–third instar, and adult densities
consistently coincided with flush abundance which in turn was lim-
ited by temperature. Generally, flush growth decreased with increas-
ing average temperature and all four citrus varieties exhibited major
flushing events from January to March in 2012, 2013, and 2014.
However, our surveys indicated that flush growth was present at
study sites at some level year round, and given the wide variety of
citrus plants (and curry leaf plants), varying climatic conditions
(e.g., temperature), and differing levels of maintenance (e.g., irriga-
tion, pruning, and fertilization) in California’s urban gardens, it is
likely that available flush is highly heterogeneous throughout the
year and across different areas. This heterogeneity may be important
for sustaining D. citri and T. radiata populations in southern
California. For instance, limes, curry leaf plants, and lemons pro-
duced flush at regular intervals, thereby enabling urban D. citri
populations to reproduce almost year round at our study sites.
Additionally, variation within and among D. citri life stage densities
on different host plants were likely due in part to host plant quality
and the influence of temperature on developmental rates (Liu and
Tsai 2000, Fung and Chen 2006).
D. citri population dynamics in urban areas were driven by host
plant growth and climatic conditions. Increases in D. citri egg, first–
third instar, and adult densities coincided with flush, and favorable
environmental conditions, especially temperature, which was con-
sistently correlated with D. citri-days across all life stages. This com-
bination of pronounced periods of flush growth interspersed with
lesser flush periods and temperatures able to support D. citri growth
resulted in psyllid populations being present but patchily distributed
temporally and spatially across sites year round. Consequently, D.
citri densities peaked in April–May and July–October when average
daily temperatures consistently fell within D. citri’s optimal tem-
perature range of 25–28
C (Liu and Tsai 2000). Rainfall was low
throughout the duration of the study and was not correlated with
percentage flush growth (California was experiencing a significant
drought over the course of these studies and all experimental trees
were irrigated by home owners). However, rainfall was negatively
correlated with D. citri fourth–fifth instar-days, suggesting that pre-
cipitation events may adversely affect larger nymphs, possibly by
dislodging them from host trees. It is plausible that observed differ-
ences among sites in D. citri densities are driven, in part, by environ-
mental conditions. For example, overall D. citri densities were
consistently higher at Lochmoor and Jurupa, two Riverside County
sites, whose average maximum temperatures were $2.5
C higher
than Los Angeles County sites. Laboratory studies indicate that D.
Fig. 4. Mean (6 SE; untransformed) percentage parasitism for T. radiata attacking D. citri nymphs from 2013–2015 across eight sites with lemons, four sites with
oranges, two sites with limes, and two sites with grapefruits. Different letters within a citrus variety indicate significant differences between varieties (Tukey HSD
test, P 0.05). Percentage parasitism for each citrus variety was averaged for sites with multiple trees.
1054 Journal of Economic Entomology, 2016, Vol. 109, No. 3
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9. citri reared at warm optimal temperatures (i.e., 25–28
C) exhibit
enhanced survival, reduced developmental times, and increased fe-
cundity (Fung and Chen 2006, Liu and Tsai 2000). Further, field
studies in Florida found positive correlations between temperature
and D. citri densities (Tsai et al. 2002, Hall et al. 2008). However,
since 8 of our 11 study sites were located Los Angeles County, the
relationship between study site, temperature, and D. citri densities
may be influenced by an over representation of sites from this area.
To better address the role of climatic factors and D. citri population
densities through time, future studies should examine urban D. citri
phenology across a wider geographic gradient using an east (hot and
arid) to west (cool and humid) transect with a balanced distribution
of sites and citrus varieties to assess the effects of California’s varied
climate on pest population growth.
Differences in urban garden care may also contribute to observed
differences in D. citri densities across residential sites, as host plant
quality varied greatly among different sites (Kistner, personal observa-
tion). Homeowners that regularly prune trees, which promotes flush
growth, may inadvertently increase psyllid densities due to increased
flush availability (Kistner and Hoddle 2015a). Similarly, regularly
trimmed and well managed ornamental orange jasmine hedges in
Florida produce the highest D. citri densities compared to citrus be-
cause regular pruning promotes flush growth (Tsai et al. 2002, Chong
et al. 2010, Hall and Rohrig 2015). In addition to pruning, watering
and fertilization may enhance host plant quality, and when coupled
with mixtures of different citrus varieties with varying flush patterns
could result in higher urban D. citri densities than would be observed
in commercial citrus groves which are uniformly planted and man-
aged. If this is the case and heterogeneous urban environments do sup-
port greater year round D. citri populations, this may be beneficial for
the persistence of biological control agents like T. radiata, but it could
also increase the risk of CLas acquisition and transmission by psyllids.
The low average year-round parasitism rates by T. radiata
observed in this study were consistent with similar findings from
Florida (Tsai et al. 2002, Michaud 2004, Qureshi and Stansly
2009). Three different hypotheses may explain low observed parasit-
oid activity. First, over half the sites monitored for the duration of
the study were never purposely inoculated with T. radiata and this
parasitoid migrated to these nonrelease sites, possibly from nearby
designated release sites. At these nonrelease sites, our results suggest
that T. radiata failed to provide significant D. citri control. A not-
able exception was Penn Mar, a site in Los Angeles County, where
parasitoid activity averaged 11% and was consistent over all three
years of the study. Likewise, Lochmoor, a site in Riverside County,
was the only designated release site where T. radiata flourished with
percentage parasitism averaging 18.6% from 2013 to 2015.
Interestingly, average overall parasitism rates were 35% higher at
sites where T. radiata was deliberately released compared to nonre-
lease sites that the parasitoid invaded. Second, viable urban T. radi-
ata populations may not have established in some release areas due
to low numbers of individuals released (e.g. propagule size; Beirne
1975) in conjunction with too few discrete release events (e.g.
propagule number; Beirne 1975) that may not have coincided with
D. citri life stages susceptible for host feeding and parasitism. Due
to the limited availability of parasitoids during the early stages of
this classical biological control program, propagule size and release
frequency over the course of this study were low, averaging eight re-
leases of $159 individuals per designated release site. In addition,
propagule size and number of releases were not consistent across re-
lease sites with some sites receiving more parasitoids (i.e.,
Lochmoor) or more frequent releases (i.e., Asuza) than others (see
Table 1 for release summaries). Poor timing of releases may
have hindered T. radiata establishment at some sites. For example,
multiple December and January releases were conducted at Azusa,
Rodeway Inn, and Jurupa. At this time densities of D. citri fourth–
fifth instars, preferred stages for parasitism, were low. Finally,
another invasive urban pest, the Argentine ant, Linepithema
humile (Mayr) (Hymenoptera: Formicidae), may be interfering with
T. radiata suppression of D. citri (Kistner and Hoddle 2015b, Tena
et al. 2013). Argentine ants infest 90% of all southern California
properties where they actively tend and protect up to 55% of D. citri
colonies. This mutualistic relationship can reduce T. radiata parasit-
ism rates by as much as 80% (Tena et al. 2013). In the context of
this study, Argentine ants may have contributed to the lack of ob-
servable parasitoid activity at Maplefield and Azusa, two designated
release sites in Los Angeles County, as they had persistent year-
round ant activity. Argentine ant exclusion experiments in
California are needed to assess the importance of ant-D. citri mu-
tualisms on T. radiata’s efficacy as a biological control agent.
Despite low average year-round parasitism rates, T. radiata may
be contributing to D. citri population declines at some California
residencies (Kistner and Hoddle 2015a). Parasitism rates of fourth–
fifth instars often exceeded 50% during periods of peak parasitoid
activity. Consequently, mean cumulative D. citri fourth–fifth instar-
days, T. radatia’s preferred life stage for oviposition (Gomez-Torres
et al. 2012), were significantly lower in 2014 compared to 2013
across all 11 sites. Furthermore, adult psyllid densities at five Los
Angeles County sites declined by 68% over a 3-yr period since the
introduction of T. radiata into this area. Similarly, psyllid densities
at two Riverside County sites declined by $50% from 2013 to 2015
following T. radiata releases. An additional mortality factor that
T. radiata is imposing on D. citri populations is host feeding by fe-
male parasitoids. Laboratory studies indicate that this can be very
high with an estimated 500 nymphs over a single female’s lifetime
(Chien et al. 1995). In addition, Skelley and Hoy (2004) found that
57% of D. citri nymphs were killed by T. radiata host feeding
compared to the 36% parasitized under laboratory conditions. The
combined impact of host feeding and parasitism equated to a 93%
total reduction in D. citri numbers. Unfortunately, due to difficulty
in detecting and accurately identifying from field collected samples,
psyllid mortality from host feeding by T. radiata females could not
be quantified in these studies. Regardless, our results provide no de-
finitive evidence that T. radiata is currently limiting urban D. citri
populations across southern California and additional phenology
surveys at later stages of this ongoing classical biological program
will be warranted. Other biotic factors, such as generalist predators,
may also influence D. citri densities at urban sites.
D. citri is subjected to varying degrees of control by natural ene-
mies throughout its native (Khan et al. 2014) and invaded ranges
(Hall et al. 2012). In Florida, ladybeetles (Coleoptera: Coccinellidae)
may be the most important natural enemy group attacking immature
D. citri (Michaud 2004, Chong et al. 2010, Qureshi and Stansly
2009). Likewise, naturally occurring predators may significantly re-
duce D. citri densities in California (Goldmann et al. 2014). For ex-
ample, Kistner and Hoddle (2015b) found green lacewing larvae
(Neuroptera: Chrysopidae) and hover fly larvae (Diptera: Syrphidae)
can reduce immature D. citri by as much as 93% in some instances.
Further studies (e.g., life table analyses or videography of D. citri
cohorts) examining natural enemy impact on urban D. citri popula-
tion suppression are needed. Reduced vector densities, especially of
mobile D. citri adults, is a crucial component of HLB management
since bacterium transmission rates decrease as a function of decreasing
CLas-infected D. citri feeding on susceptible host plants (Pelz-Stelinski
et al. 2010). Reducing psyllid densities in urban areas, where HLB is
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10. currently present and spreading, may decrease the rate at which HLB
appears in California’s commercial orchards because fewer D. citri
from potentially infected urban sources carrying CLas will be avail-
able to migrate into uninfected commercial citrus groves.
In conclusion, this study provides a crucial snapshot of both
urban D. citri population dynamics and efficacy of T. radiata at the
early stages of an ongoing D. citri management program in urban
areas in southern California that is relying heavily on classical biolo-
gical control. Our results indicate that D. citri densities are strongly
linked to seasonal changes in flush growth in conjunction with tem-
perature and that D. citri populations have declined at multiple
California residences since the introduction of T. radiata. Given that
T. radiata propagule pressure was low over the course of the study,
it is likely that T. radiata has not yet reached its full potential as a
classical biological control agent targeting D. citri in urban areas.
Mass production and release of T. radiata in California has
increased substantially since its initial introduction in Dec. 2011.
For instance, 5,000 parasitoids were released across Los Angeles
County in 2012 when this project began, while 200,000 parasit-
oids were released in 2014, the final year of these surveys (Richard
A. Dunn, Citrus Research Board, unpublished data). Furthermore,
there are often significant time lags between the release, establish-
ment, and subsequent top down control of the target pest by a biolo-
gical control agent (Van Driesche et al. 2008). We recommend
repeating these monitoring surveys in 5–8 yr, thereby providing a
comparison of T. radiata efficacy during the early and later stages of
this classical biological control program in urban areas in southern
California.
Supplementary Data
Supplementary data are available at Journal of Economic Entomology online.
Acknowledgments
This research was supported, in part, by funds from the Citrus Research
Board grant no. 5500-194, United States Department of Agriculture, Animal
and Plant Health Inspection Service, Multi Agency Coordination grant no.
15-8130-0336-CA and USDA-APHIS Citrus Health Response Program grant
no. 11-0519-SF. We are grateful to Michael Pazanni at UC-Riverside
Research and Economic Development for bridging funds. David Morgan,
CDFA, provided access to T. radiata for field releases when needed. Aviva
Goldmann, Naseem Saremi, Timothy Lewis, Greg Cho, Allison Bistline-East,
Christina Hoddle, and Grace Radabaugh provided field and lab assistance.
Maghan Vankosky, Nagham Melhem, and Elizabeth Carpenter provided
valuable feedback in the preparation of the manuscript. We thank cooperat-
ing homeowners in southern California for unlimited access to citrus in their
gardens.
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