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
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 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.
This document discusses the need for historical perspective in weed science. It provides context on the origins and development of weed science as a discipline. Key points include:
- Weed science has historically relied heavily on herbicides as the primary weed control method due to the pesticide paradigm. However, over-reliance on any single method can be problematic.
- Other related fields like entomology and plant pathology have also grappled with paradigm shifts away from total dependence on pesticides.
- Looking to the history and evolution of weed science and similar disciplines can provide lessons on the importance of re-evaluating goals and approaches over time to address new challenges or societal concerns. Maintaining a diverse set of
This document summarizes a project to control invasive plant species on 565+ acres of conservation land owned by the University of Central Florida (UCF). The project aims to initially control four priority invasive species through contractual work. The land has a high potential for natural regeneration due to a diverse native seed bank and variety of habitat types. Long-term management will include continued invasive species control funded by UCF's Environmental Initiative to benefit listed species on the property and increase connectivity to other conservation lands.
Final Copy Individual Project, Queens University Biological StationRachel Brodie
This document compares the grazing rates of the invasive mysid shrimp Hemimysis anomala to the native Mysis diluviana. Laboratory experiments found that single Hemimysis consumed on average 8.7 Daphnia over 2 hours, significantly higher than the 1.4 Daphnia consumed by single Mysis. Double predator systems of both species consumed more Daphnia than single predators, though intraspecific competition was detected. The higher consumption rate of Hemimysis suggests it may have a more detrimental impact on zooplankton communities in the Great Lakes than the native Mysis.
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 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 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.
This document discusses the need for historical perspective in weed science. It provides context on the origins and development of weed science as a discipline. Key points include:
- Weed science has historically relied heavily on herbicides as the primary weed control method due to the pesticide paradigm. However, over-reliance on any single method can be problematic.
- Other related fields like entomology and plant pathology have also grappled with paradigm shifts away from total dependence on pesticides.
- Looking to the history and evolution of weed science and similar disciplines can provide lessons on the importance of re-evaluating goals and approaches over time to address new challenges or societal concerns. Maintaining a diverse set of
This document summarizes a project to control invasive plant species on 565+ acres of conservation land owned by the University of Central Florida (UCF). The project aims to initially control four priority invasive species through contractual work. The land has a high potential for natural regeneration due to a diverse native seed bank and variety of habitat types. Long-term management will include continued invasive species control funded by UCF's Environmental Initiative to benefit listed species on the property and increase connectivity to other conservation lands.
Final Copy Individual Project, Queens University Biological StationRachel Brodie
This document compares the grazing rates of the invasive mysid shrimp Hemimysis anomala to the native Mysis diluviana. Laboratory experiments found that single Hemimysis consumed on average 8.7 Daphnia over 2 hours, significantly higher than the 1.4 Daphnia consumed by single Mysis. Double predator systems of both species consumed more Daphnia than single predators, though intraspecific competition was detected. The higher consumption rate of Hemimysis suggests it may have a more detrimental impact on zooplankton communities in the Great Lakes than the native Mysis.
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.
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.
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
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.
This document discusses a study on the perceptions of Mexican hunters toward exotic game species. The study collected data through an email survey sent to 90 hunters in Mexico in 2014. The results showed that participants were generally pleased with the availability of exotic game species for hunting. However, participants also indicated that they would not hunt any exotic species listed as endangered under Mexican law. The primary motivations for hunting reported by participants were enjoying time in nature and obtaining trophies, rather than motivations like hunting for food or social acceptance.
This document discusses disease transmission models and how they relate to amphibian extinction by the emerging infectious disease chytridiomycosis. It is presented that extinction was thought to be impossible if transmission was density-dependent and contact was homogeneous, but these assumptions may not always hold true. Habitat fragmentation can increase contact rates and transmission effectiveness. A study on the Arizona tiger salamander found populations in more sparse and modified ponds had higher incidence of infection. While extinction is a natural process, loss of biodiversity can negatively impact ecosystems and human welfare through reductions in resources like food and medicine.
This document reviews how host density, habitat type, and microclimate influence the distribution of two tick species: Amblyomma americanum (lone star tick) and Ixodes scapularis (blacklegged tick). For I. scapularis, studies using deer exclosures or deer culling events found that immature tick abundance declined when deer density decreased, as deer are an important host for adult ticks. However, larvae and nymphs can shift to feeding on other hosts when deer are absent. Host density is thus an important but not sole factor determining I. scapularis distribution.
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 document summarizes several pest and plant disease surveys being conducted by the Kansas Department of Agriculture. It discusses surveys for exotic pests that could affect alfalfa crops and orchards. Specific pests that will be monitored include moths, beetles, weevils, ants, and stink bugs. Shipping container yards are also being surveyed as pathways for invasive species introductions. Separate surveys outlined are for emerald ash borer, walnut twig beetle, and other pests and diseases affecting orchards. The surveys involve setting traps in various counties across Kansas to detect any presence of target exotic species.
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.
The document discusses invasive species, which are introduced non-native species that spread rapidly and negatively impact the environment. Introduced species usually fail to establish because most cannot tolerate a new environment, but some like zebra mussels are successful. Invasive species have few natural predators or diseases in their new ecosystem, allowing their populations to grow unchecked and outcompete native species. There are over 3000 invasive species in Canada, including carp and starlings, which significantly impact environments and economies. Preventing introductions is ideal but difficult as species can arrive unintentionally. Controlling established invasives may involve pesticides, physical removal, or biological controls using natural predators.
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.
The study investigated the diversity of palm species (Arecaceae) within a 2km transect in CEDAR, Impalutao, Impasug-ong. 9 species of palm were identified, with the most abundant being Chamaerops humilis, Astrocaryum sciophilum, Phoenix reclinata, and Chamaedorea seifrizii. While most species' conservation status was listed as of least concern, the study provides baseline data on palm diversity in the area and their uses to local communities.
Critical Assessment of Claims Regarding Management of Feral Cats by Trap Neut...HVCClibrary
This document provides a critical assessment of claims made by advocates of trap-neuter-return (TNR) programs for managing feral cat populations. The authors analyze common arguments put forth by TNR advocates and find that the scientific literature contradicts each of these claims. Specifically, the authors dispute claims that feral cats only harm wildlife on islands and not continents, that they fill a natural ecological niche, and that TNR effectively eliminates feral cat colonies over time. The authors argue that TNR should be viewed as an environmental issue and receive formal environmental assessment, and that conservation scientists have an important role to play in communicating sound scientific information on this topic.
This document discusses various invasive species that threaten North Carolina's forests and ecosystems. It describes insects like the emerald ash borer and the walnut twig beetle that have killed millions of ash and walnut trees respectively. It also discusses invasive plants like kudzu and Chinese wisteria that smother and kill native vegetation. Additional invasive species mentioned include the Asian shore crab, lionfish, nutria, Burmese pythons, and various invasive exotic plants. The document stresses that invasive species can significantly damage local habitats and outcompete native wildlife for resources.
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.
The document summarizes a study on the status of the tiger beetle (Cicindela hirticollis) along the coast of New York City and Long Island. The beetle was historically found at 30 coastal locations but surveys from 1989 to 2010 found populations at only 13 beaches. Only 4 sites had large populations of 40 or more beetles. No beetles were found at the formerly occupied large coastal beaches. The decline is likely due to heavy human foot and vehicle traffic on beaches that destroys the beetles' burrows. Coastal beaches need management that recognizes their role in supporting wildlife like tiger beetles.
The Designation & Management of Threatened Species: is there any point?Mario Balzan
The management of threatened species is an important practical way in which conservationists can intervene with extinction process and reduce the loss of biodiversity by ensuring some (high) probability of long-term species survival (Young, 1994; Norris, 2004). Though maintaining the whole ecosystem is often the target of conservationists, if a population is severely threatened this may not be sufficient. A more direct population management may be required (Hunter, 1996). To conserve such rare species there is a critical need to assess the impacts of threats on the long term survival of an individual population. This requires detailed information about the biology of the species concerned, the habitat it prefers, and the factors that might affect both of these (Root, 1998). Natural resource agencies worldwide develop species recovery plans that specify threats, propose targets required for recovery, and evaluate the extent to which habitat alteration and restoration may influence species decline and recovery (Good et al. 2003)
The document discusses how human population growth is negatively impacting biodiversity through increasing demands for resources, land use changes, pollution, overexploitation of species, and introduction of invasive species. Areas with the highest biodiversity, like tropical rainforests and coral reefs, are being degraded the most by human activities. The increasing rate of species extinction due to humans may be hundreds of times higher than the natural background rate, with potentially severe consequences if biodiversity is not protected.
The document discusses developing soil interpretations from national soil survey data to help with planning for resilience to hurricane disasters. It describes 18 existing catastrophic event response interpretations and identifies areas suitable for debris disposal and composting facilities. It also discusses limitations of interpretations for animal mortality disposal after Hurricane Harvey and opportunities to modify interpretations to better address emergency situations through multidisciplinary collaboration and new research.
This document is a resume for Lauren M. Merchant that highlights her education and experience in ecology, evolution, organismal biology, and the arts. She earned a B.S. in Ecology, Evolution and Organismal Biology from Saint Louis University with a minor in Studio Art. Her experience includes undergraduate research, teaching assistant positions, scientific illustration internships, and presentations at ecology conferences. She has strong skills in field research, statistical analysis, and community outreach.
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 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.
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.
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
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.
This document discusses a study on the perceptions of Mexican hunters toward exotic game species. The study collected data through an email survey sent to 90 hunters in Mexico in 2014. The results showed that participants were generally pleased with the availability of exotic game species for hunting. However, participants also indicated that they would not hunt any exotic species listed as endangered under Mexican law. The primary motivations for hunting reported by participants were enjoying time in nature and obtaining trophies, rather than motivations like hunting for food or social acceptance.
This document discusses disease transmission models and how they relate to amphibian extinction by the emerging infectious disease chytridiomycosis. It is presented that extinction was thought to be impossible if transmission was density-dependent and contact was homogeneous, but these assumptions may not always hold true. Habitat fragmentation can increase contact rates and transmission effectiveness. A study on the Arizona tiger salamander found populations in more sparse and modified ponds had higher incidence of infection. While extinction is a natural process, loss of biodiversity can negatively impact ecosystems and human welfare through reductions in resources like food and medicine.
This document reviews how host density, habitat type, and microclimate influence the distribution of two tick species: Amblyomma americanum (lone star tick) and Ixodes scapularis (blacklegged tick). For I. scapularis, studies using deer exclosures or deer culling events found that immature tick abundance declined when deer density decreased, as deer are an important host for adult ticks. However, larvae and nymphs can shift to feeding on other hosts when deer are absent. Host density is thus an important but not sole factor determining I. scapularis distribution.
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 document summarizes several pest and plant disease surveys being conducted by the Kansas Department of Agriculture. It discusses surveys for exotic pests that could affect alfalfa crops and orchards. Specific pests that will be monitored include moths, beetles, weevils, ants, and stink bugs. Shipping container yards are also being surveyed as pathways for invasive species introductions. Separate surveys outlined are for emerald ash borer, walnut twig beetle, and other pests and diseases affecting orchards. The surveys involve setting traps in various counties across Kansas to detect any presence of target exotic species.
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.
The document discusses invasive species, which are introduced non-native species that spread rapidly and negatively impact the environment. Introduced species usually fail to establish because most cannot tolerate a new environment, but some like zebra mussels are successful. Invasive species have few natural predators or diseases in their new ecosystem, allowing their populations to grow unchecked and outcompete native species. There are over 3000 invasive species in Canada, including carp and starlings, which significantly impact environments and economies. Preventing introductions is ideal but difficult as species can arrive unintentionally. Controlling established invasives may involve pesticides, physical removal, or biological controls using natural predators.
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.
The study investigated the diversity of palm species (Arecaceae) within a 2km transect in CEDAR, Impalutao, Impasug-ong. 9 species of palm were identified, with the most abundant being Chamaerops humilis, Astrocaryum sciophilum, Phoenix reclinata, and Chamaedorea seifrizii. While most species' conservation status was listed as of least concern, the study provides baseline data on palm diversity in the area and their uses to local communities.
Critical Assessment of Claims Regarding Management of Feral Cats by Trap Neut...HVCClibrary
This document provides a critical assessment of claims made by advocates of trap-neuter-return (TNR) programs for managing feral cat populations. The authors analyze common arguments put forth by TNR advocates and find that the scientific literature contradicts each of these claims. Specifically, the authors dispute claims that feral cats only harm wildlife on islands and not continents, that they fill a natural ecological niche, and that TNR effectively eliminates feral cat colonies over time. The authors argue that TNR should be viewed as an environmental issue and receive formal environmental assessment, and that conservation scientists have an important role to play in communicating sound scientific information on this topic.
This document discusses various invasive species that threaten North Carolina's forests and ecosystems. It describes insects like the emerald ash borer and the walnut twig beetle that have killed millions of ash and walnut trees respectively. It also discusses invasive plants like kudzu and Chinese wisteria that smother and kill native vegetation. Additional invasive species mentioned include the Asian shore crab, lionfish, nutria, Burmese pythons, and various invasive exotic plants. The document stresses that invasive species can significantly damage local habitats and outcompete native wildlife for resources.
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.
The document summarizes a study on the status of the tiger beetle (Cicindela hirticollis) along the coast of New York City and Long Island. The beetle was historically found at 30 coastal locations but surveys from 1989 to 2010 found populations at only 13 beaches. Only 4 sites had large populations of 40 or more beetles. No beetles were found at the formerly occupied large coastal beaches. The decline is likely due to heavy human foot and vehicle traffic on beaches that destroys the beetles' burrows. Coastal beaches need management that recognizes their role in supporting wildlife like tiger beetles.
The Designation & Management of Threatened Species: is there any point?Mario Balzan
The management of threatened species is an important practical way in which conservationists can intervene with extinction process and reduce the loss of biodiversity by ensuring some (high) probability of long-term species survival (Young, 1994; Norris, 2004). Though maintaining the whole ecosystem is often the target of conservationists, if a population is severely threatened this may not be sufficient. A more direct population management may be required (Hunter, 1996). To conserve such rare species there is a critical need to assess the impacts of threats on the long term survival of an individual population. This requires detailed information about the biology of the species concerned, the habitat it prefers, and the factors that might affect both of these (Root, 1998). Natural resource agencies worldwide develop species recovery plans that specify threats, propose targets required for recovery, and evaluate the extent to which habitat alteration and restoration may influence species decline and recovery (Good et al. 2003)
The document discusses how human population growth is negatively impacting biodiversity through increasing demands for resources, land use changes, pollution, overexploitation of species, and introduction of invasive species. Areas with the highest biodiversity, like tropical rainforests and coral reefs, are being degraded the most by human activities. The increasing rate of species extinction due to humans may be hundreds of times higher than the natural background rate, with potentially severe consequences if biodiversity is not protected.
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1. Ecology and Population Biology
Abiotic and Biotic Mortality Factors Affecting Asian
Citrus Psyllid (Hemiptera: Liviidae) Demographics in
Southern California
Erica J. Kistner,1,2
Nagham Melhem,1
Elizabeth Carpenter,1
Martin Castillo,1
and
Mark S. Hoddle1,3
1
Department of Entomology, University of California, Riverside, CA 92507 (ekistnerphd2014@gmail.com; nagham-m23@hotmail.com;
ecarpe777@yahoo.com; martin.castillo@ucr.edu; mark.hoddle@ucr.edu), 2
Corresponding author, e-mail: ekistnerphd2014@
gmail.com, and 3
Department of Entomology and Center for Invasive Species Research, University of California, Riverside, CA
92507
Received 25 March 2016; Accepted 27 June 2016
Abstract
Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera: Liviidae), is an invasive citrus pest in California that
vectors a bacterium that causes the deadly citrus disease huanglongbing. From 2014–2015, 116 experimental
D. citri cohorts were monitored to determine survivorship, life table parameters, and marginal rates of mortality
of immature D. citri at three sites in Riverside County, CA. D. citri cohorts of $200 eggs were established on
potted Citrus volkameriana (Rutaceae) plants. Field deployed cohorts were protected with fine or coarse mesh
enclosures, sticky barriers, or left unprotected. Egg through adult emergence rates were used to assess the rela-
tive importance of biotic and abiotic factors on psyllid survivorship rates by life stage. Predation of immature
D. citri by larvae of Allograpta sp. (Diptera: Syrphidae) and Chrysoperla sp. (Neuroptera: Chrysopidae) com-
prised 86% of all observed predation mortality. When protected from all other arthropods, parasitism by
Tamarixia radiata (Waterston) (Hymenoptera: Eulophidae) comprised 21% of the total marginal rate of imma-
ture D. citri mortality from September to November in 2014 and 2015. Overall, D. citri net reproductive rates
were reduced by 55–95% when exposed to natural enemies, indicating the importance of the classical biological
control agent, T. radiata, and generalist predators in reducing D. citri densities in urban areas of southern
California.
Key words: Diaphorina citri, biological control, generalist predator, life table, Tamarixia radiata
Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera:
Liviidae), was discovered in southern California in 2008 and is now
widespread throughout the region (Civerolo 2015). D. citri is a no-
torious citrus pest because it vectors the phloem-dwelling bacterium,
Candidatus Liberibacter asiaticus (CLas), which causes the deadly
citrus disease huanglongbing (HLB), which can kill susceptible citrus
varieties within 5–8 yr postinfection (Bove´ 2006, Halbert and
Manjunath 2004, Hall et al. 2012). In the United States, D. citri has
been detected in nine states and HLB has been detected in six of
those states including California (Center for Environmental and
Research Information Systems [CERIS] 2015). The D. citri–CLas
complex has had profound impacts on the entire commercial US cit-
rus industry (Hall et al. 2012), with D. citri-vectored CLas leading
to > US$4 billion in economic losses in Florida alone (Farnsworth
et al. 2014). Chemical and biological pest control as well as removal
of CLas-infected trees are employed to control D. citri populations
and reduce the rate of CLas spread in California (Grafton-Cardwell
et al. 2015, Hornbaker and Kumagai 2016, Kistner et al. 2016a).
California’s residential landscape provides an ideal habitat for
D. citri to proliferate, as backyard citrus is largely devoid of insecti-
cide treatments. Additionally, D. citri can feed and develop on many
Citrus (Sapindales: Rutaceae) cultivars and the related curry leaf
plant, Murraya koenigii (L.) Sprengel (Rutaceae), all of which are
widely planted in the region (Kistner et al. 2016a). D. citri popula-
tion growth is limited by the availability of new leaf (i.e. flush)
growth on host trees (Hall et al. 2008). However, Kistner et al.
(2016a) found that frequently flushing limes, lemons, and curry leaf
plants can host urban D. citri populations year round in southern
California.
Given that $36% of southern Californian residences have citrus
(Hoddle and Pandey 2014) and CLas-infected trees have only been
detected in urban areas (Kumagai et al. 2013, Hornbaker and
Kumagai 2016), there is a serious threat of CLas transmission into
commercial citrus production areas by D. citri migrating from
unmanaged residential landscapes (Grafton-Cardwell et al. 2015).
This movement increases the risk of CLas acquisition and spread
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 1
Annals of the Entomological Society of America, 2016, 1–12
doi: 10.1093/aesa/saw053
Research article
Annals of the Entomological Society of America Advance Access published September 21, 2016
atESASocietyMemberonSeptember21,2016http://aesa.oxfordjournals.org/Downloadedfrom
2. which subsequently leads to HLB epidemics (Bassanezi et al. 2013).
Therefore, vector management is a critical component of HLB pre-
vention (Pelz-Stelinski et al. 2010, Bassanezi et al. 2013, Lewis-
Rosenblum et al. 2015).
In an attempt to reduce D. citri densities in urban areas, classical
biological control with host-specific parasitoids is being utilized
(Hoddle and Pandey 2014, Bistline-East et al. 2015). In December
2011, releases of Tamarixia radiata (Waterston) (Hymenoptera:
Eulophidae), a host-specific parasitoid of D. citri sourced from Punjab
Pakistan, began as part of a statewide classical biological control
program with the intent of suppressing urban D. citri population
growth and spread (Hoddle and Pandey 2014). As of December
2015, the California Department of Food and Agriculture had re-
leased $3,000,000 parasitoids at >4,000 sites across southern
California (Rick A. Dunn, Citrus Research Board, unpublished
data). T. radiata is an ectoparasitoid that can also kill D. citri
nymphs through host feeding (Chien et al. 1995, Gomez-Torres
et al. 2012). This widely used D. citri biological control agent has re-
portedly provided good levels of biological control in Re´union
Island (Etienne and Aubert 1980), Puerto Rico (Pluke et al. 2005a),
India (Husain and Nath 1927), Taiwan (Chien and Chu 1996), and
Guadeloupe (Etienne et al. 2001). However, the impact of T. radiata
on D. citri in Florida has not been sufficient to suppress D. citri pop-
ulations to acceptable levels (Michaud 2004, Qureshi and Stansly
2009, Hall et al. 2012). In California, T. radiata parasitism rates are
highly variable and the overall impact of this parasitoid on urban
D. citri population growth and spread is uncertain at this early stage
of the classical biological control program (Kistner et al. 2016a).
Naturally occurring enemies, especially generalist predators, pro-
vide varying degrees of D. citri control throughout the psyllid’s na-
tive (Khan et al. 2014) and invaded ranges (Hall et al. 2012). There
is general consensus that lady beetles (Coleoptera: Coccinellidae),
lacewings (Neuroptera: Chrysopidae, Hemerobiidae), hover flies
(Diptera: Syrphidae), and spiders (Araneae) are major predators of
D. citri (Halbert and Manjunath 2004, Hall et al. 2012, Grafton-
Cardwell et al. 2013). However, the magnitude of D. citri reduction
provided by each group remains unclear. Lady beetles are the most
abundant D. citri predators in Florida (Michaud 2004, Qureshi and
Stansly 2009, Chong et al. 2010), Puerto Rico (Pluke et al. 2005b),
Colombia (Kondo et al. 2015), and India (Batra et al. 1990). In
California, predation by generalist predators has been shown to re-
duce immature D. citri densities, with green lacewing larvae con-
suming large numbers of eggs and nymphs (Goldmann and
Stouthamer 2015). In contrast, there is little evidence that generalist
predators limit D. citri populations in Iran (Rakhshani and Saeedifar
2013) or Pakistan (Vetter et al. 2013, Khan et al. 2014). In some sit-
uations, biological interactions, such as the development of mutual-
isms between D. citri and ants, may enhance D. citri survival in
citrus ecosystems (Navarrete et al. 2013, Tena et al. 2013). Ants of-
ten protect honeydew-excreting hemipterans, like D. citri, from nat-
ural enemies in exchange for food, and these mutualistic
interactions can have a negative impact on biological control
(Powell and Silverman 2010). Navarrete et al. (2013) found that
ants significantly reduced the efficacy of T. radiata in Florida citrus
groves. In southern California, the Argentine ant, Linepithema humile
(Mayr) (Hymenoptera: Formicidae), inhabits 90% of urban proper-
ties where they readily tend urban D. citri colonies (Tena et al. 2013).
Argentine ants are capable of reducing T. radiata parasitism rates by
up to 80% (Tena et al. 2013) and may also prevent generalist preda-
tors from accessing D. citri colonies (Kistner and Hoddle 2015).
In addition to biotic factors, abiotic conditions also play a crucial
role in D. citri population dynamics. D. citri development is intrinsically
linked to temperature (Fung and Chen 2006), with an estimated
optimal temperature range of 25–28
C (Liu and Tsai 2000). Under
laboratory conditions, D. citri reared at 28
C exhibit the highest
survivorship, shortest developmental times, and highest net repro-
ductive rates (Liu and Tsai 2000). Field studies in Florida (Tsai
et al. 2002, Hall et al. 2008) consistently found temperature to be
an important abiotic factor driving D. citri densities. Similarly,
Kistner et al. (2016a) found positive correlations between tempera-
ture and urban D. citri densities across Riverside and Los Angeles
County, CA. Therefore, examining seasonal changes in D. citri sur-
vival and abundance under field conditions is important for devel-
oping effective psyllid management programs in California. To
better understand the contribution of abiotic and biotic factors on
D. citri population dynamics in southern California, we developed
life tables for 116 experimental D. citri cohorts deployed over
15 mo across three sites. Varying degrees of natural enemy exclu-
sion treatments were used to isolate different sources of mortality
and D. citri natural enemy abundance and diversity associated
with experimental cohorts were assessed.
Materials and Methods
Study Sites
Experimental D. citri cohorts were deployed at two residential sites,
Lochmoor (33
950
N, 117
310
W, 420 m) and Jurupa (33
990
N,
117
500
W, 214 m), as well as an experimental citrus grove, the
University of California—Riverside (UCR) Biocontrol grove (33
580
N, 117
190
W, 359 m) located in Riverside, County, CA. Both
D. citri and T. radiata were established at these sites at the start of
study. Mature Citrus sinenis (L.) Osbeck ‘Valencia’ trees were pre-
sent at each site. No foliar or systemic insecticide applications were
applied to sites throughout the duration of the study. Temperature
and relative humidity data were recorded hourly at each site with
HOBO Pro v2 data loggers placed in trees within 50 cm from experi-
mental cohorts (1 logger per site: U23-001, Onset Computer
Corporation, Bourne, MA). Precipitation data were obtained from
weather stations within 2–6 km of each study site (The Weather
Underground 2015). Climate data were used to prepare average
summaries for temperature, humidity, and rainfall for the durations
of all D. citri cohort experiments conducted across the three sites
(Fig. 1).
Maintenance of D. citri Cohorts
D. citri used for the life table experiments were sourced from CLas-
free colonies that were initiated from southern California-collected
material and maintained in the Insectary and Quarantine Facility
(IQF) at UCR in compliance with CDFA permit number 2870.
D. citri were reared on potted Citrus volkameriana V. Ten. Pasq
plants (25 cm tall) which were obtained as rooted seedlings 2 yr of
age (Willits and Newcomb Inc. Arvin, CA). Seedlings were reared in
greenhouses at UCR Agricultural Operations (see Bistline-East et al.
2015 for management practices). To initiate an experimental cohort,
$15–20 colony-sourced D. citri adults were added to eight plants
that were pruned to produce heavy flush growth and allowed to ovi-
posit for 3–4 d. All ovipositing adults in IQF rearing rooms were
maintained under constant conditions at 29
C, 40% RH, and a pho-
toperiod of 14:10 (L:D) h. At the end of this period, adults were re-
moved, and eggs were counted. To ensure accurate counting
individual flush shoots were numbered and eggs per shoot were
counted using an LED 10x hand lens (MG7810, ASC Scientific,
Carlsbad, CA). Eggs per shoot were summed across all shoots to
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3. determine the total egg load per plant. Since egg load per plant var-
ied, excess eggs were removed either by using a fine-hair paintbrush
or by removing egg infested flush growth until plants hosted $200
(6 10%) eggs. Plants infested with newly hatched nymphs were ex-
cluded from the study. Four C. volkameriana plants containing
$200 eggs were then placed in four plastic cages and immediately
moved from IQF to their respective experimental field site.
Cohort Establishment and Population Monitoring
Experimental cohorts were initiated monthly at all three sites from
August 2014 to November 2015. C. volkameriana potted plants
infested with experimental D. citri eggs were placed on four stands
(i.e., plastic buckets: 33 (diameter) by 37 (height) cm) situated be-
neath the lower canopy of two Valencia orange trees at each site.
Nearby tree foliage was pruned monthly to ensure that no citrus fo-
liage touched the potted plants or experimental enclosures. Buckets
were secured to the ground with steel tent pegs and plants were se-
cured to the bucket using 25 cm long bungie cords. Four treatments
were employed to assess natural enemy impact, especially generalist
predators and parasitoids, on D. citri survival. We employed similar
exclusion treatments utilized by Qureshi and Stansly (2009) in
Florida. First, an enclosure (15 by 30 cm) made of fine mesh (95
mm2
holes) organdy was placed over potted plants, which was sup-
ported using two 28 cm long sticks inserted into potting soil. This
control treatment excluded all natural enemies thereby enabling us
to determine D. citri survivorship rates in the absence of natural ene-
mies (i.e., determine baseline mortality rates from natural causes
and abiotic factors). Second, enclosures (15 by 30 cm) made of
course mesh organdy (3 mm2
holes) were applied to potted plants
using the same procedure described above with the intent of exclud-
ing large predators while still allowing entry of small natural ene-
mies like T. radiata. A third exclusion treatment consisted of a sticky
barrier (Tangle foot insect barrier, Contech Enterprises Inc.,
Victoria, Canada) applied liberally around the entire circumference
of plant pots to prevent access to D. citri cohorts by walking arthro-
pods, including Argentine ants. A sticky barrier was also applied to
pots with plants enclosed by course mesh. Fourth, potted plants
with no mesh or sticky barriers were fully exposed to allow free ac-
cess to D. citri life stages by all natural enemies and ant mutualists.
This uncaged treatment enabled us to determine total biotic mortal-
ity from both T. radiata parasitism and predation from generalist
predators. Plants were examined every other day using a 10x hand
lens and numbers of D. citri by life stage (eggs, first-third instars,
fourth-fifth instars, and adults) were recorded per treatment. Any
additional D. citri eggs were removed following each observation
and potted plants were thoroughly watered as needed. Counts con-
tinued until all immature D. citri in experimental cohorts had died
from unknown causes, disappeared, been parasitized or consumed,
or emerged as adults. Adult D. citri emerging into enclosures as well
as fifth-instar nymphal exuviae left on twigs/leaves were counted
and removed at each inspection. Fifth-instar nymphal exuviae were
used to estimate adult survival in uncaged treatments. Comparisons
between mean adult and fifth-instar nymphal exuviae counts in fully
enclosed treatments found a 3% difference in estimated adult num-
bers, indicating a 97% nymphal exuviae recovery rate. Nymphal
exuviae counts were an effective method for estimating adult emer-
gence in uncaged treatments. Additionally, arthropods associating
with immature D. citri cohorts were assessed every other day by
searching each experimental potted plant’s foliage for one minute.
Arthropod surveys on experimental plants were conducted between
0800 and 1300. Predators, parasitoids, and ants observed on D. citri
colonies during one min surveys or trapped in sticky barriers were
counted and removed from the latter. Any unknown arthropods or
those trapped in the sticky barrier were preserved in 95% ethanol in
labeled vials and identified. Parasitism by T. radiata was assessed by
counting D. citri mummies. Mummies are easily identified by their
dark brown coloration, silken threads securing mummy to plant sur-
face, and an exit hole in the thorax region created by emerged adult
T. radiata (Chen and Stansly 2014). Predation of nymphs by hover
fly and green lacewing larvae was often directly observed and could
be assessed by counting partially consumed cadavers (E.J.K., per-
sonal observation). A total of 116 experimental cohorts (n ¼ 29 per
treatment) were monitored over the course of the study and assigned
Fig. 1. Mean minimum, maximum, average temperatures, relative humidity
(%), and total rainfall (mm) during cohort experiments initiated on different
dates at (A) the UCR Biocontrol grove, (B) Lochmoor, and (C) Jurupa in
Riverside County, CA.
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4. to different seasons based on their start and end states (Suppl.
Table 1 [online only]). Seasonal experimental cohorts were defined
as follows: 1) Winter cohorts were deployed and monitored between
21 December 2014 to 18 March 2015, 2) Spring cohorts were
deployed and monitored between 19 March 2015 to 20 June
2015, 3) Summer cohorts were deployed and monitored between 25
August to 20 September 2014 and 21 June 2015 to 22 September
2015, 4) Fall cohorts were deployed and monitored between 23
September to November 30 2014 and 23 September to 21 December
2015. Eight cohorts at Jurupa initiated in September and October
2014 and four spring cohorts at the UCR Biocontrol grove initiated
in April 2015 were excluded from analyses due to the failure of ex-
clusion treatments to keep natural enemies out.
Data Analysis
Demographic Growth Parameters
Egg to adult survivorship rates were calculated for each cohort (i.e.,
number of emerged adults/initial number of eggs used to generate
that cohort) and averaged across seasons from 2014–2015. Life ta-
bles were constructed for each individual D. citri cohort per treat-
ment. Development and survivorship data were used to determine
the lx (number of original cohort entering each life stage) and dx
(number of original cohort dying at each life stage), which were
summed across all experimental cohorts within a season at each site.
These summed parameters were then used to calculate qx (mortality
rate of each life stage) and mean d (duration of each life stage in
days) per season at each of the three study sites (Suppl. Tables 2–4
[online only]). Assuming a constant 1:1 sex ratio, the net reproduc-
tive rate (Ro) was calculated as a product of the fraction of females
surviving to adulthood (Carey 1993) and fecundity (Bellows and
Driesche 1999) at the appropriate temperature range as reported by
Liu and Tsai (2000). Mean generation time (Tc) was estimated as
the sum of egg incubation time (Liu and Tsai 2000), nymphal devel-
opmental time through 50% adult emergence as observed in each
cohort (Qureshi and Stansly 2009), and the prereproductive period
(Wenninger and Hall 2007). The intrinsic rate of natural increase
(rm) and population doubling time (Td) were also calculated for each
cohort (Carey 1993, Bellows and Driesche 1999).
Marginal Probabilities of Mortality
To isolate the magnitude of different contemporaneous mortality sour-
ces (i.e., unknown mortality, predation, parasitism, and disappearance),
marginal rates of mortality were calculated. The marginal rate of mor-
tality is the number of individuals that would die from a factor in the
absence of all other contemporaneous mortality agents (Elkinton et al.
1992), which provides an estimate of mortality rates from competing
mortality factors. For instance, intraguild predation of parasitized D.
citri nymphs by generalist predators may obscure contemporaneous
mortality from parasitism (Michaud 2004). The marginal probability of
mortality from Elkinton et al. (1992) was calculated as:
mi ¼ 1 À ð1 À dÞdi=d
where mi is the marginal probability of mortality from the ith cause,
di is the death rate from the ith cause, and d is the death rate from all
causes combined. The marginal probabilities for each mortality factor
by life stage for each experimental cohort treatment were calculated.
Statistical Analysis
The three sites were treated as replicates given that no significant
between site differences were detected when comparing mean an-
nual Ro (H ¼ 2.89; df ¼ 2; P ¼ 0.24), Tc (H ¼ 6.25; df ¼ 2; P ¼ 0.10),
rm (H ¼ 1.74; df ¼ 2; P ¼ 0.42), and Td (H ¼ 0.81; df ¼ 2; P ¼ 0.67)
life table parameters generated from experimental cohorts. Prior to
statistical analyses, all life table parameters and marginal attack
rates were subjected to the jackknife procedure using the bootstrap
package in R 3.2.0 (Efron and Tibshirani 1993); a commonly em-
ployed method in population growth statistics to test the precision
of a parameter of interest. The jackknife method omits one observa-
tion at a time from the original data set and recalculates the statistic
of interest (Meyer et al. 1986). All life table parameters were ana-
lyzed using the nonparametric Kruskal–Wallis test followed by the
Mann–Witney U-test to determine pairwise treatment and seasonal
comparisons. The Kruskal–Wallis test was also employed to deter-
mine differences in marginal attacks rates for each mortality factor
per life stage within each season. All Kruskal–Wallis and Mann–
Witney U-tests were performed using the statistics package in
R.3.2.0 (R Development Core Team 2015).
Results
Experimental Cohort Survival
Regardless of season, D. citri eggs in “no exclusion” cohorts (n¼ 29)
consistently exhibited low adult recruitment, averaging a 2.6% sur-
vival rate to adulthood (range: 0 to 23.7%) over the course of this
study (Fig. 2). Year round egg survival to first–third instars was
greatly enhanced by exclusion treatments with an average annual re-
duction of only 25.8% compared to the 63.8% reduction in egg sur-
vival observed in the “no exclusion” treatment. First–third instars
exhibited lower survival rates in natural enemy accessible “walking
arthropods excluded” and “no exclusion” treatments (Fig. 2). “Full
exclusion” treatments greatly enhanced immature D. citri survival
with adult recruitment averaging 57.8% (range: 2.8 to 89.8%) for
these completely protected cohorts (Fig. 2). However, this natural en-
emy protection was far less beneficial for D. citri in winter (Fig. 3A).
In winter, inclement weather resulted in only 20% of “full exclusion”
D. citri eggs reaching adulthood (Fig. 3A) while 63% of “full exclu-
sion” D. citri eggs set up in spring months (Fig. 3B) survived to adult-
hood. Overall, immature D. citri survival to adulthood peaked in the
summer across all three exclusion treatments (Fig. 3C). As summer
transitioned into fall, survival of “full exclusion” D. citri cohorts de-
creased by 12.8% (Fig 3C-D) as average daily temperatures began to
decline (Fig. 1). T. radiata decreased survival of immature D. citri in
“T. radiata access” cohorts by an additional 47.9% when compared
to “full exclusion” cohorts (Fig. 2). Increased D. citri mortality by T.
radiata was due to a combination of both parasitism and host feeding.
Survival of “T. radiata access” cohorts from egg to adult averaged
30.2% (range: 0 to 79.1%), with T. radiata induced mortality peaking
in spring (Fig. 3B) and fall (Fig. 3D). Survival of “walking arthropods
excluded” immature D. citri was low, averaging 16.5% (range: 0 to
77.1%) over the course of the study (Fig. 2).
Field Demography
Exclusion treatments protecting immature D. citri cohorts resulted
in increased net reproductive rates (Ro) and intrinsic rates of natural
increase (rm), and reduced population doubling times (Td) (Table 1).
The annual mean net reproductive rate, Ro, in “full exclusion” D.
citri cohorts was 20-fold higher than unprotected “no exclusion” D.
citri cohorts. (H ¼ 38.26; df ¼ 3; P 0.001; Table 1). Likewise, the
intrinsic rate of natural increase, rm, was significantly lower, being
reduced by 66.7 to 81.3% as D. citri cohorts were increasingly ex-
posed to natural enemies (H ¼ 39.14; df ¼ 3; P 0.001; Table 1).
Population doubling time, Td, was significantly longer for “no
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5. exclusion” D. citri cohorts (H ¼ 9.74; df ¼ 3; P ¼ 0.02) when com-
pared to cohorts benefiting from some level of exclusion (Table 1).
D. citri cohorts assigned partial exclusion treatments, “T. radiata ac-
cess” and “walking arthropods excluded,” generally exhibited sur-
vival rates and demographic values that were intermediate to full
and no exclusion cohorts (Table 1; Fig. 2). The magnitude of effects
between exclusion treatments varied across seasons (Table 2). “No
exclusion” D. citri cohorts had significantly lower net reproductive
rates compared to the two partial exclusion treatments in spring,
summer, and fall (Table 2). In winter, the partial and no exclusion
treatments exhibited no difference in their net reproductive rates or
intrinsic rate of increase (Table 2). Net reproductive rates (Ro) of
“full exclusion” cohorts averaged 171.40 and ranged from a low of
1.4 in January 2015 to a high of 301.9 in July 2014. Generation
time (Tc) ranged from a low of 22.1 days in September 2015 to a
high of 52.9 days in January 2015 and did not vary across treat-
ments (H ¼ 2.30; df ¼ 3; P ¼ 0.316; Table 1) indicating that higher
summer temperatures in the “full exclusion” treatment had minor
effects on D. citri developmental time.
Marginal Probabilities of Mortality
Treatment effects on marginal rates of mortality varied across D. citri
life stages and seasons (Table 3). In “no exclusion” cohorts, the marginal
rate of mortality for disappearance in eggs consistently comprised the
greatest proportion of overall mortality across all life stages and seasons.
Winter
Over winter, D. citri egg and first–third instar mortality was high
across all treatments because of prolonged exposure to cold temper-
atures and occasional rainfall events (Fig. 1, Table 3). The marginal
probability of mortality for predation was significantly higher for
first–third instars in the “walking arthropods excluded” treatments
(H ¼ 9.81; df ¼ 3; P ¼ 0.02) and fourth–fifth instars in both the
“walking arthropods excluded” and “no exclusion” treatments
(H ¼ 13.95; df ¼ 3; P 0.01; Table 3). No mortality from parasitism
was detected during the winter months (Table 3).
Spring
Marginal probability of mortality for egg disappearance was signifi-
cantly higher in the “no exclusion” cohorts compared to cohorts re-
ceiving some form of arthropod exclusion treatment (H ¼ 13.15;
Fig. 2. Total numbers of experimental D. citri entering each life stage
summed across: (A): Full exclusion, (B) T. radiata access, (C) Walking arthro-
pods excluded, and (D) No exclusion treatments (n ¼ 29 per treatment). D. citri
cohort numbers counts were summed across the three sites in Riverside
County, CA, beginning in August 2014 and ending in November 2015.
Fig. 3. Mean survivorship curves (6 SE) of D. citri life stages in experimental
cohorts that isolated different mortality factors across: (A) Winter, (B) Spring,
(C) Summer, and (D) Fall. Experimental cohort population counts from three
sites in Riverside County, CA, were averaged across the four seasons begin-
ning in August 2014 and ending in November 2015.
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6. df ¼ 3; P 0.01; Table 3). Marginal rates of mortality from un-
known causes were significantly higher for first–third instars in “T.
radiata access” treatments compared to all other treatments
(H ¼ 8.34; df ¼ 3; P ¼ 0.04; Table 3). The marginal probability of
mortality for predation was significantly higher for first–third in-
stars in the “walking arthropods excluded” and “no exclusion”
treatments (H ¼ 17.26; df ¼ 3; P 0.001; Table 3). Marginal rates
of mortality from parasitism were very low and no differences were
observed between treatments (H ¼ 3.1; df ¼ 3; P ¼ 0.39; Table 3).
Summer
Marginal rates of mortality from disappearance were significantly
higher for eggs and first–third instars in the “walking arthropods ex-
cluded” and “no exclusion” treatments (H ¼ 8.2; df ¼ 3; P ¼ 0.04;
H ¼ 9.14; df ¼ 3; P ¼ 0.03; respectively; Table 3). Marginal rates of
mortality from unknown causes were 2- to 3-fold higher for first–
third instars in the “T. radiata access” treatment compared to all
other treatments (H ¼ 15.82; df ¼ 3; P ¼ 0.001; Table 3). The mar-
ginal rate of mortality from predation was significantly higher for
first–third instars in the “walking arthropods excluded” and “no
exclusion” treatments (H ¼ 13.72; df ¼ 3; P ¼ 0.003), with rates
comparable to those in the spring cohorts (Table 3). The marginal
rate of mortality from parasitism was significantly higher in the
“walking arthropods excluded” treatment (H ¼ 18.17; df ¼ 3;
P 0.001), comprising $16% of the total D. citri marginal rate of
mortality for the “walking arthropods excluded” cohorts. Parasitism
rates in the other three treatments were very low and no significant
differences were observed between them (Table 3).
Fall
The marginal rate of mortality from egg disappearance was 4- to
7-fold higher in the “walking arthropods excluded” and “no exclu-
sion” treatments (H ¼ 9.62; df ¼ 3; P ¼ 0.02; Table 3). Like the pre-
vious spring and summer cohorts, the marginal rate of mortality
from unknown causes was significantly higher for first–third instars
in the “T. radiata access” treatment compared to all other treat-
ments (H ¼ 11.38; df ¼ 3; P ¼ 0.01; Table 3). Marginal rates of mor-
tality from predation were significantly higher for first–third instars
and fourth–fifth instars in the “no exclusion” treatment compared
to all other treatments (H ¼ 26.21; df ¼ 3; P 0.001; H ¼ 17.40;
df ¼ 3; P 0.001; respectively; Table 3). Marginal rates of mortality
from parasitism were significantly higher for fourth–fifth instars in
Table 1. Mean 6 SE jackknifed life table parameters of experimental D. citri cohorts that were fully exposed (No exclusion), or protected
with full cages (Full exclusion), partial cages (T. radiata access), and sticky barriers (Walking arthropods excluded) over 2014–2015
Treatment Net reproduction rate (Ro) Generation time (Tc) Intrinsic rate of increase (rm) Doubling time (Td)
No exclusion 8.20 6 2.66a 27.14 6 1.57a 0.03 6 0.01a 17.12 6 6.51a
Full exclusion 171.30 6 20.04b 33.88 6 1.75a 0.16 6 0.01b 5.63 6 0.49b
T. radiata access 76.64 6 17.59c 32.81 6 2.1a 0.11 6 0.02bc 9.14 6 3.00b
Walking arthropods excluded 45.35 6 12.23c 27.87 6 1.60a 0.09 6 0.01c 12.49 6 4.67ab
Data were pooled across three experimental sites (n ¼ 29 for each treatment) in Riverside California. Life table parameters differences between treatments
were analyzed using Kruskal–Wallis test followed by a Mann–Whitney U test. Means within a column followed by a different letter are significantly different
(P 0.05; Bonferroni Correction).
Table 2. Mean 6 SE jackknifed seasonal differences in life table parameters of experimental D. citri cohorts that were fully exposed (No ex-
clusion), or protected with full cages (Full exclusion), partial cages (T. radiata access), and sticky barriers (Walking arthropods excluded)
across three sites in Riverside County, CA (2014–2015)
Season Treatment Net reproduction Rate (Ro) Generation time (Tc) Intrinsic rate of increase (rm) Doubling time (Td)
Wintera
Full exclusion 25.29 6 4.92a 51.25 6 2.42a 0.05 6 0.01a 9.20 6 0.95a
No exclusion 1.09 6 0.64b 51.86 6 0.69a 0.007 6 0.004b 29.80 6 0.76b
T. radiata access 1.63 6 0.71b 50.04 6 1.97a 0.02 6 0.01b 30.13 6 2.88b
Walking arthropods excluded 1.49 6 0.82b 49.63 6 3.38a 0.01 6 0.007b 15.37 6 0.12c
Springb
Full exclusion 194.01 6 19.97a 37.35 6 2.44a 0.13 6 0.007a 4.71 6 0.15a
No exclusion 2.61 6 1.71b 31.91 6 3.21a 0.03 6 0.01b 11.47 6 2.33b
T. radiata access 80.01 6 33.06c 33.97 6 0.37a 0.09 6 0.03c 4.85 6 0.34a
Walking arthropods excluded 60.94 6 36.30c 34.87 6 1.03a 0.08 6 0.002c 5.81 6 0.72a
Summerc
Full exclusion 240.44 6 17.33a 25.66 6 0.51a 0.18 6 0.02a 3.17 6 0.11a
No exclusion 13.13 6 7.66b 23.81 6 0.87a 0.09 6 0.02b 5.26 6 0.66b
T. radiata access 141.87 6 26.24c 24.14 6 0.34a 0.17 6 0.03ac 3.82 6 0.53a
Walking arthropods excluded 75.17 6 29.75d 22.16 6 1.15a 0.14 6 0.02bc 4.32 6 0.92b
Falld
Full exclusion 166.74 6 26.22a 30.11 6 2.52a 0.21 6 0.004a 4.22 6 1.40a
No exclusion 10.84 6 7.11b 25.98 6 1.34a 0.04 6 0.01b 7.08 6 1.34a
T. radiata access 61.23 6 8.89c 32.03 6 2.48a 0.12 6 0.02c 7.45 6 1.72a
Walking arthropods excluded 54.06 6 17.86c 27.50 6 1.20a 0.08 6 0.03c 8.08 6 2.47a
Within seasonal life table parameters differences between treatments analyzed using Kruskal–Wallis test followed by a Mann–Whitney U test. Means within a
column followed by a different letter are significantly different (P 0.05; Bonferroni Correction).
a
Data were pooled across sites (n ¼ 6 for each treatment).
b
Data were pooled across sites (n ¼ 6 for each treatment).
c
Data were pooled across sites (n ¼ 9 for each treatment).
d
Data were pooled across sites (n ¼ 8 for each treatment).
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8. the “walking arthropods excluded” and “T. radiata access” treat-
ments compared to the complete absence of T. radiata activity
observed in other two treatments (H ¼ 11.45; df ¼ 3; P ¼ 0 .001;
Table 3).
Biological Interactions
Insect predators in the families, Anthocoridae, Chrysopidae,
Coccinellidae, Formicidae, Forficulidae, Syrphidae, and Thripidae,
and spiders and predatory mites were observed on D. citri patches
or trapped in sticky barriers (Fig. 4). Arthropod abundance peaked
in March through June 2015. The brown garden snail, Cantareus
aspersus (Muller) was occasionally observed consuming flush in-
fested with D. citri eggs and nymphs after rain fall events; these co-
horts were excluded from analyses as snails traversed sticky barriers.
Ants (Formicidae) were consistently the most abundant arthropod
group interacting with D. citri colonies and were found trapped in
sticky barriers across all sites. Argentine ants comprised 98% of
all ant observations over the course of the study. Dark rover ants,
Brachymyrmex patagonicus Mayr, were the only other ant species
observed tending D. citri and were only found at the UCR Biocontrol
grove in October 2015. While Argentine ants were observed year
round, their abundance peaked from March to June 2015 at all three
sites and declined from November 2014 to February 2015. Ant activ-
ity was also high from August to October 2014 and October to
November 2015 at the UCR Biocontrol grove (Fig. 4A) and from
August to October 2014 at Lochmoor (Fig 4B).
Two species of hover fly larvae (Syrphidae), Allograpta obliqua
(Say) and A. exotica (Wiedemann), were the most abundant D. citri
predators across all three sites. Hover fly larvae abundance peaked
Fig. 4. Total number of arthropods observed on colonies of immature D. citri situated on potted C. volkameriana shoots or trapped in the sticky barriers used to
exclude arthropods initiated on different dates at: (A) the UCR Biocontrol grove (n ¼ 20), (B) Lochmoor (n ¼ 22), and (C) Jurupa (n ¼ 16) in Riverside County, CA.
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9. from March to June 2015, but were observed year round at the three
study sites. Green lacewing larvae (Chrysopidae), comprised entirely
of the species Chrysoperla comanache (Banks), were the second
most abundant predator of D. citri nymphs. Hover fly and lacewing
larvae were commonly seen consuming D. citri nymphs and com-
prised $86% of all documented immature D. citri mortality from
predation (Table 3).
Tamarixia radiata was the only parasitoid observed parasitizing
D. citri nymphs over the course of the study and was the third most
frequently observed natural enemy attacking D. citri. The parasitoid
was completely absent from December 2014 to February 2015, but
was commonly found on D. citri cohorts in March through May
2015 and August through November 2014 and 2015 (Fig 4). T. radi-
ata was rarely seen at Jurupa (Fig. 4C). From July to August 2014
and June to August 2015, 16.5% of all surviving fourth–fifth instars
assigned to either the “T. radiata access,” “walking arthropods ex-
cluded,” or “no exclusion” treatments were parasitized with per-
centage parasitism ranging from 0 to 83%. Parasitism in “no
exclusion” cohorts peaked in summer with 19.1% of surviving
fourth–fifth instars dying from parasitism (Table 3). Similarly,
16.3% of all surviving fourth–fifth instars in the partial and no ex-
clusion fall cohorts were parasitized with percentage parasitism
ranging from 0 to 78%. No parasitism was observed in the “no ex-
clusion” cohorts from September to November in 2014 and 2015
(Table 3). Spiders, thrips (Thripidae), and predatory mites in
families Aystidae and Phytoseiidae were observed less frequently
than hover flies, green lacewings, and T. radiata. Ghost spiders
(Anyphaenidae), jumping spiders (Salticidae), and yellow sac spiders
(Eutichuridae) were common at the three study sites (Fig. 4). The
large predatory mite, Anysitis agilis (Banks), was occasionally ob-
served carrying away small D. citri nymphs from fully exposed co-
horts set out at the UCR Biocontrol grove (Fig. 4A) and Jurupa
(Fig. 4C). Adult and juvenile lady beetles composed of the species
Harmonia axyridis (Pallas), Hippodamia convergens Gue´rin-
Me´neville, and Cycloneda spp., were uncommon throughout the
study, but were recovered from all three sites. Minute pirate bugs
(Anthocoridae) were only found at the UCR Biocontrol grove
(Fig. 4A) and Jurupa (Fig. 4C) while earwigs (Forficulidae) were
only observed at Lochmoor (Fig. 4B).
Discussion
Our experimental results provide compelling evidence that natural
enemies are inflicting impressive levels of mortality on immature
stages of D. citri in southern California. “Full exclusion” treatments
significantly enhanced D. citri survival, net reproductive rate (Ro),
intrinsic rate of increase (rm), and reduced population doubling time
(Td). Annual mean net reproductive rate was reduced by over
20-fold when immature D. citri were exposed to all natural enemies
(i.e. no exclusion) compared to “full exclusion” cohorts that were
fully caged and natural enemies were excluded access to eggs and
nymphs. Low survival and reduced net reproductive rates in partial
and no exclusion cohorts were due to a combination of natural en-
emy impacts, predation by generalist predators as well as parasitism
and host feeding by T. radiata. Our results are consistent with the
findings of similar D. citri predator exclusion studies conducted in
Florida (Michaud 2004, Qureshi and Stansly 2009) and emphasize
the importance of conserving natural enemies of D. citri.
The impact of seasonal variation on D. citri survival, develop-
mental time, and net reproductive rates were most influential from
December 2014 to February 2015 when the average minimum
temperatures were below 10
C across all three sites. Consequently,
these prevailing cold temperatures and coinciding rainfall events re-
duced immature D. citri survival to adulthood in “full exclusion”
cohorts by 80% and doubled the length of generation times when
compared to summer cohorts. This outcome is unsurprising given
that the minimum temperature development thresholds for D. citri
were estimated at 10–13
C (Liu and Tsai 2000, Fung and Chen
2006). In addition, average daily temperatures at this time ranged
from 13.8 to 16.70
C, well below D. citri’s estimated optimal devel-
opmental temperature range of 25–28
C (Liu and Tsai 2000).
Despite suboptimal temperatures for development, “full exclusion”
winter D. citri cohorts were capable of minor population growth
(i.e. net reproductive rates, Ro, 1). However, since we deployed
large numbers of D. citri eggs in the field during months when their
numbers in southern California are naturally range from very low to
completely absent in some regions (Kistner et al. 2016a), our D. citri
demography data may be overestimating winter survival and repro-
ductive rates. To determine whether naturally occurring D. citri
populations can successful develop and reproduce year round at our
study sites, monthly branch samples were taken from nearby (within
50 m) citrus trees at all three sites. D. citri eggs and nymphs were
present on 10% of the branches sampled while D. citri adults
were present on 18% of all branches sampled from December 2015
to March 2016 (E.J.K., unpublished data). This finding suggests that
D. citri can still reproduce and develop during southern California’s
winters at reduced capacities which supports previous phenology
observations (Kistner et al. 2016a) and the results presented here.
From March through November, biotic factors strongly influ-
enced D. citri population dynamics. Hover flies (Allograpta spp.)
were consistently the most frequently observed D. citri predator on
experimental cohorts. Over the course of these experiments, hover
flies outnumbered the second most abundant predator, green lace-
wing larvae, by a ratio of 2:1. Hover fly larvae were frequently ob-
served consuming D. citri nymphs especially in the spring when
hover flies were most numerous. This observation was unexpected,
as hover flies have not been previously reported as important D. citri
predators (Michaud 2004, Qureshi and Stansly 2009, Chong et al.
2010, Khan et al. 2014). However, Catling (1970) noted that an
Allograpta sp. was a major predator of the African citrus psyllid,
Trioza erytreae (Del Guerico) and Michaud (2002) observed occa-
sional attacks of D. citri nymphs in Florida by A. oblique, the most
commonly observed D. citri predator at our field sites. Larvae of the
green lacewing, C. comanache, were often seen consuming D. citri
eggs and nymphs year round. These field observations support the
results of C. comanache bioassays and gut content analyses targeting
D. citri in organic citrus orchards in southern California (Goldmann
and Stouthamer 2015). From March to June, hover fly and green
lacewing larvae consumed up to 93% of D. citri nymphs in experi-
mental cohorts to which these predators had access. D. citri nymphs
hidden deep within flush growth or tucked in the fork between a
branch and stem were typically the only individuals surviving to
adulthood in uncaged, “no exclusion,” cohorts.
Mortality from T. radiata parasitism was notable in the summer
and fall, but negligible in spring. No evidence of T. radiata activity
was detected from December 2014 to February 2015 when fourth–
fifth instar D. citri nymphs, their preferred host life stage (Gomez-
Torres et al. 2012), were almost completely absent at study sites. In
experimental cohorts where natural enemies were either not ex-
cluded or partially excluded, only 2% of all surviving fourth–fifth
instars were parasitized from March to May 2015. This low inci-
dence of spring time parasitism may be due to reduced recruitment
rates of fourth–fifth instars which coincided with increased
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10. abundance of generalist predators. Interference from Argentine ant
may have also be reduced parasitism rates (Tena et al. 2013), as ants
were actively observed tending experimental D. citri nymphs from
March to November. From June to November (i.e. summer and fall
seasons), only 16.4% of all fourth–fifth instars in the partial and no
exclusion cohorts were parasitized, but total observed parasitism
was as high as 24.6% in “walking arthropods excluded” cohorts de-
ployed in the summer. The moderate rates of T. radiata parasitism
found in our study are similar to those observed in Florida
(Michaud 2004, Qureshi and Stansly 2009, Chong et al. 2010).
Nevertheless, parasitism rates of fourth–fifth instars in individual
cohorts often exceeded 50% from June to November with percent-
age parasitism reaching as high as 83% during this time. In the ab-
sence of other contemporaneous causes, parasitism comprised 21%
of the total marginal rate of mortality in fall for “T. radiata access”
cohorts, suggesting that T. radiata alone can reduce D. citri numbers
in periods of peak parasitoid activity. The negative impact of T. radi-
ata on immature D. citri survival may have been underestimated in
this study given that the annual D. citri survival rate to adulthood in
“T. radiata access” cohorts averaged only 30.1% (SE 6 0.05%). It is
feasible that parasitoid host feeding (Chien et al. 1995) comprises a
considerable proportion of the unexplained biotic mortality ob-
served in our experimental D. citri cohorts. Laboratory studies sug-
gest that D. citri mortality from host feeding by T. radiata exceeds
that of parasitism by as much as 58% (Skelley and Hoy 2004). In
the context of our manipulative field experiments, we suspect that a
significant proportion of undetermined D. citri nymphal mortality
may have been the result of host feeding by T. radiata. For example,
the marginal rate of mortality from unknown causes of first–third
instars was 2- to 3-fold higher in the “T. radiata access” treatments
compared to the other treatments during the spring, summer, and
fall seasons. This trend was most pronounced in the fall when mor-
tality of first–third instars from unknown sources comprised 35% of
the total marginal rate of mortality for all immature D. citri stages
in the “T. radiata access” treatments. Given that visual T. radiata
observations and parasitism rates peaked during this period, it is
plausible that T. radiata were also killing D. citri nymphs via host
feeding in fall. However, psyllid mortality from host feeding by T.
radiata females was not confirmed with visual observations of D.
citri cohorts in the field. Digital videography of immature D. citri
colonies in field could help elucidate the importance of host feeding
by female T. radiata in these urban environments (Kistner et al.
2016b).
The annual marginal rate of mortality for disappearance of D.
citri eggs in the “no exclusion” treatment averaged 59% indicating
the importance of egg predation. These findings are consistent with
Michaud (2004) who also observed high levels of egg predation in
central Florida. We suspect that predatory mites and thrips may be
important egg predators in urban citrus in southern California.
Predatory mites in the family Phytoseiidae were found on D. citri
colonies at all three sites, but were never directly observed attacking
D. citri eggs. The six spotted thrips, Scolothrips sexmaculatus
(Pergande), a common predator of spider mites (Gilstrap and
Oatman 1976), was found at the UCR Biocontrol grove and Jurupa
where they may have opportunistically fed on D. citri eggs. Western
flower thrips, Frankliniella occidentalis (Pergande), were observed
at all three sites from March to April 2015. These omnivores will
readily attack mite eggs and whitefly crawlers (van Maanen et al.
2012) so it is feasible they could consume D. citri eggs and small
nymphs. Laboratory bioassays and manipulative field experiments
are warranted to determine which of these small predators may be
consuming D. citri eggs in southern California.
Spiders were the fourth most abundant natural enemy observed
at our field sites where they were found in equal numbers on D. citri
colonies and trapped in sticky barriers. Despite their abundance, we
rarely observed spiders attacking D. citri nymphs. The ghost spider
Anyphaena pacifica (Banks) was the only spider we observed ac-
tively consuming psyllid nymphs and a small number of nymphs
were occasionally found trapped in webs. While several spider spe-
cies have been reported to consume immature psyllids (Shivankar
et al. 2000, Michaud 2002, 2004), there is little evidence that spi-
ders are contributing significant levels of D. citri control in Florida
(Qureshi and Stansly 2009). Generalist predators and D. citri phe-
nology surveys in Pakistan revealed that peak spider abundance and
vulnerable D. citri life stages did not coincide for long enough pe-
riods of time for effective biological control (Vetter et al. 2013,
Khan et al. 2014). It is possible that these surveys are underestimat-
ing spider predation given the limitation of our diurnal visual obser-
vations. Nocturnal digital video recordings could help ascertain if
spiders are important predators of immature D. citri in California
(Kistner et al. 2016b).
Although the Argentine ant was the most abundant arthropod at
our sites, annual survival and mean net reproductive rates of com-
pletely unprotected D. citri cohorts (i.e. no exclusion treatment)
were 87% lower than cohorts assigned to treatments that excluded
both ants and other walking arthropods. While Argentine ants were
observed tending and guarding honey dew producing D. citri
nymphs, eggs would not have benefitted from the presence of ants.
Furthermore, major egg predators, like predatory mites, had full ac-
cess to these unprotected D. citri cohorts which may explain why
egg recruitment to first–third instars was 51% lower in “no exclu-
sion” cohorts compared to those that receive some type of exclusion
treatment. In addition, the negative impact of Argentine ant–D. citri
mutualisms on biological control by naturally occurring enemies
may have been reduced due to ongoing ant management at all three
sites. Homeowners at Lochmoor and Jurupa periodically deployed
commercially available liquid poison bait stations to suppress
Argentine ant populations (E.J.K., personal observation). Argentine
ant control experiments took place at the UCR Biocontrol grove
from July through September 2014 and July through November
2015. Using a combination of thiamethoxam and the Argentine ant
pheromone component (Z)-9-hexadecenal dissolved in a 25% su-
crose solution, Argentine ant foraging activity was reduced by 40- to
60-fold as a result of these treatments (K. Schall, unpublished data).
Similar target-specific bait delivery systems have proven to be effec-
tive in reducing Argentine ant populations in California’s organic
citrus groves (Greenberg et al. 2006). Manipulative field and labora-
tory studies are needed to examine the impact of Argentine ant on
D. citri densities, parasitoid activity, and generalist predators.
This work is the first major study examining D. citri survival, de-
mographic growth parameters, mortality factors, and associated
generalist predators in southern California. Our estimated net repro-
ductive rates and intrinsic rates of increase are likely overestimated
given that they are based on uniform fecundity data from a labora-
tory study (Liu and Tsai 2000) and we assumed all individuals in
our experimental cohorts that survived to adulthood successfully
reproduced, which is unlikely. Individuals respond differently to en-
vironmental stressors and this variation in performance has been
shown to impact future population growth (Ehrle´n 2000). In addi-
tion, we did not take density-dependent effects into account when
estimating D. citri demographic growth parameters. In natural in-
sect populations, biotic mortality within a population can benefit
surviving individuals by decreasing intraspecific competition
(Oedekoven and Joern 2000). In this scenario, increased resource
10 Annals of the Entomological Society of America, 2016, Vol. 0, No. 0
atESASocietyMemberonSeptember21,2016http://aesa.oxfordjournals.org/Downloadedfrom
11. availability enhances the survival and fecundity rates of the remain-
ing individuals which in turn could obviate negative effects of natu-
ral enemies on D. citri population growth. Therefore, D. citri
demographic growth parameters as reported here should be viewed
with some caution. Nevertheless, our study clearly demonstrates the
importance of natural enemies in reducing D. citri populations in
areas with no chemical control. Reducing D. citri densities and
maintaining them at low densities in unmanaged urban areas, where
CLas is present and spreading, is a crucial component of HLB man-
agement in California (Hornbaker and Kumagai 2016, Kistner et al.
2016a). Conserving and promoting robust natural enemy popula-
tions in urban citrus should help keep D. citri densities in check. At
the same time, reducing Argentine ant densities in heavily infested
areas is recommended, as it should enhance D. citri biological con-
trol by allowing natural enemies greater access to colonies of eggs
and nymphs (Greenberg et al. 2006, Navarrete et al. 2013, Tena
et al. 2013).
Acknowledgments
This research was supported, in part, by funds from the Citrus Research
Board grant 5500-194, United States Department of Agriculture, Animal and
Plant Health Inspection Service, Multi Agency Coordination grant 15-8130-
0336-CA, and USDA-APHIS Citrus Health Response Program grant 11-
0519-SF. We are grateful to Michael Pazanni at UC-Riverside Research and
Economic Development for bridging funds. Douglas Yanega and Richard
Vetter identified unknown arthropods and spiders, respectively. Kathryn
Vega, Christina Hoddle, Victor Herrera, and Ruth Amrich provided field as-
sistance. We thank Mamoudou Setamou and one anonymous reviewer for
helpful feedback and comments. We are grateful to cooperating homeowners,
and James Mickey, for generously allowing us to conduct these studies on
their properties.
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