Factors influencing the honeydew production of Ultracoelostoma scale insects in New Zealand beech forests

McBride, James Alexander

January 2013

In New Zealand Nothofagus forests Ultracoelostoma spp. scale insects produce abundant honeydew which is an important food for native birds, invertebrates, sooty mould, and invasive wasps. Previous models have underestimated honeydew production, potentially because they do not allow for the flow rate of honeydew to vary between insects based on characteristics such as insect size. This research focused on honeydew production rates at the level of the individual insect, how insect characteristics influence production, and whether the strongest predictor of production, ambient air temperature, acts directly on insects or indirectly via effects on trees. Finding out how temperature acts to increase honeydew production will better reveal the physiological processes involved. The study site was Mt. Richardson, Canterbury. In the first part of this study, during March-April 2012, daily mean ambient temperature (range 7.2 – 15.1 °C) had a positive relationship with honeydew production. Insect size positively influenced production at high temperatures, with the largest insects producing 0.296 µg insect⁻¹ h⁻¹ and the smallest insects 0.115 µg insect⁻¹ h⁻¹ at the highest temperature, 15.1 °C. In the second part of this study, during October 2012-January 2013, I manipulated temperature on areas of tree trunk using reflective or clear plastic covers, creating a mean temperature difference of 1.1 °C. However, the effects of tree and insect temperature could not be separated as there was no relationship between either manipulated or ambient temperature and honeydew production. These results show that honeydew production is influenced by individual insect characteristics. This will be important for future models of production. The results also show contradictory effects of temperature on honeydew production, perhaps because of interactions with other unknown factors, which bears further investigation.

Honeydew

Scale insect

Ultracoelostoma

Nothofagus

Beech forest

Determining the importance of propagule pressure and dispersal mechanisms for the establishment and spread of crapemyrtle bark scale, Acanthococcus lagerstroemiae Kuwana (Hemiptera: Eriococcidae)

Wright, Erika Renee

12 May 2023

Non-native scale insects can be economically and ecologically important pests of urban forests. Crapemyrtle bark scale (CMBS), Acanthococcus lagerstroemiae Kuwana (Hemiptera: Eriococcidae), is a scale that causes declines in plant vigor for a popular ornamental tree in the southeastern United States, crapemyrtle (Lagerstroemia spp.). CMBS has spread rapidly throughout the Southeast and, more recently, into the Middle Atlantic. Despite problems associated with CMBS, important aspects of its ecology, such as the role of propagule pressure in establishment and the relative importance of mechanisms for between-tree dispersal, are not well-understood. We used field and laboratory studies to investigate these aspects of CMBS population ecology, finding that just one female CMBS ovisac can establish new populations and that nymphs are dislodged at low wind speeds (7 m/s) from crapemyrtle twigs. Our results highlight the importance of thorough phytosanitation practices in crapemyrtle nurseries and provide evidence for wind-mediated and phoretic dispersal by CMBS.

scale insect

propagule pressure

establishment

dispersal

wind

vector

Entomology

Ecological studies on coccids inhabiting nests of the plant-ants on Macaranga myrmecophytes / オオバギ属アリ植物の共生アリ巣に生息するカイガラムシについての生態学的研究

Handa, Chihiro

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第19070号 / 人博第723号 / 新制||人||173(附属図書館) / 26||人博||723(吉田南総合図書館) / 32021 / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)教授 市岡 孝朗, 教授 加藤 眞, 教授 瀬戸口 浩彰 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DGAM

scale insect

Macaranga myrmecophyte

plant-ant

symbiosis

mutualism

Southeast Asian tropical rainforests

Borneo

361

Epidémiologie de l'enroulement viral de la vigne dans les vignobles français septentrionaux et transmission par cochenilles vectrices / Epidemiology of grapevine leafroll disease in vineyards of northeastern France and transmission by scale insects

Le Maguet, Jean

26 June 2012

Les virus de l’enroulement de la vigne (Grapevine leafroll-associated virus, GLRaV) sont répandus mondialement et transmis à la vigne uniquement par cochenilles (Coccoidea). En France, l’enroulement viral affecte particulièrement les vignobles des régions septentrionales.L’approche biologique de la vection a montré la capacité de Phenacoccus aceris à transmettre à la vigne les GLRaV-1, -3, -4, -5, -6, -9 et ceux du bois strié Grapevine virus A et B. Cette étude est la première démonstration de la transmission du GLRaV-6 et confirme l’absence de spécificité des cochenilles dans la transmission des Ampelovirus. Les larves néonates de P. aceris et de Neopulvinaria innumerabilis représentent un stade de développement efficace pour la transmission de ces virus. En conséquence, leurs capacités vectrices, associées à leur fort potentiel de dissémination anémophile, impliquent un risque important de dispersion naturelle de ces virus dans un vignoble infesté. Les relevés sur quatre parcelles distinctes montrent que Parthenolecanium corni, Pulvinaria vitis, Heliococcus bohemicus et P. aceris sont communes, chaque vignoble différant par la diversité spécifique, le taux de ceps infestés et l’abondance des cochenilles. L'étude épidémiologique prouve le rôle des cochenilles dans la dispersion de l’enroulement viral dans les vignobles septentrionaux. A Bonzon, la responsabilité de P. aceris dans la diffusion rapide du GLRaV-1 est mise en évidence. Cette découverte représente la première preuve en Europe d’une dispersion naturelle du GLRaV-1. A Marsannayla-Côte, l’incidence du GLRaV-1 reste faible, la colonie de P. aceris ne semblant avoir qu’un rôle très limité dans la diffusion de la maladie. L'épidémiologie moléculaire à Bonzon révèle une diversité génétique importante du GLRaV-1 à l’échelle parcellaire et fournit pour la première fois des données sur le polymorphisme génétique d'une population de GLRaV-1 ayant été dispersée par des cochenilles. / Grapevine leafroll viruses (Grapevine leafroll-associated virus, GLRaV) are present worldwide and transmitted to grapevine only by scale insect vectors (Coccoidea). In France, leafroll disease is present in all vine-growing areas, particularly in north-eastern regions. The biological approach of transmission allowed us to show the capacity of the mealybug Phenacoccus aceris to transmit the viruses GLRaV-1, -3, -4, -5, -6, -9 and the rugose wood viruses Grapevine virus A and B. This study represents the first evidence of the transmission of GLRaV-6 and confirms the absence of mealybug specificity in the transmission of Ampelovirus. First instar nymphs of P. aceris and of Neopulvinaria innumerabilis represent a very efficient development stage in the transmission of leafroll and rugose wood viruses. As a consequence, their vector capacities associated with the high potential of dispersal of these nymphs imply an important risk of natural spread of viruses in an infested vineyard. The entomological monitoring on 4 plots shows that Parthenolecanium corni, Pulvinaria vitis, Heliococcus bohemicus and P. aceris are common in vineyards, each site differing by the specific diversity, the level of infested stocks and the abundance of scale insects on stocks. The epidemiological study proves the role of scales insects in the dispersal of leafroll disease in the vineyards of north-eastern France. In Bonzon, the major role of P. aceris in the rapid spread of the GLRaV-1 is demonstrated. This finding represents the first report in Europe of a natural spread of GLRaV-1. In Marsannay-la-Côte, the incidence of the GLRaV-1 remains low and the colony of P. aceris, not associated to grapevine, seems to have only a very limited role in the disease spread. The molecular epidemiology study in Bonzon reveals an important genetic diversity of GLRaV-1 within a signle plotand supplies for the first time information on the genetic polymorphism of a GLRaV-1population being spread by scale insects.

Enroulement viral

Complexe du bois strié

Phenacoccus aceris

Bonzon

Analyse spatio-temporelle

GLRaV

Cochenilles

Viticulture

Grapevine leafroll viruses

Scale insect vectors

Phenacoccus aceris

Bonzon

GLRaV-1

579.2