Your search keyword '"Rohrig E"' showing total 6 results

1. Reaction of root systems of grand fir (Abies grandis Lindl.) and Norway spruce (Picea abies Karst.) to seasonal waterlogging

Author

Xu, Y.-J., Rohrig, E., and Folster, H.

Subjects

FORESTS & forestry

Abstract

Effects of seasonal waterlogging on rooting depth and rooting intensity (root counts per unit profile wall area) were analysed on profilewalls in 14 stands of pure grand fir (Abies grandis Lindl.) and pureNorway spruce (Picea abies Karst.), varying from 20 to 31 years old,in a mountainous region in western Germany. The sites vary from non-waterlogged to strongly seasonally waterlogged. We found that seasonal waterlogging in compacted soils is a main stress factor that strongly influences the root distribution of both species. However, roots of grand fir were more tolerant, expanded to greater depths (in general more than 20 cm), and attained higher densities (more than 30%) than roots of Norway spruce. The roots of grand fir even penetrated into the compact Sd-horizon of pseudogleys, whereas the Sw-horizon (seasonally waterlogged horizon) prevented deeper rooting of spruce and contributed to its plate-shaped root system. In addition, a study on the dynamics of fine root biomass and chemistry from waterlogged and non-waterlogged periods was carried out by core sampling in a 25-year-old, grand fir stand. During the waterlogged period, the fine roots had considerably greater dead (5558 kg ha-1) than live biomass (3594 kg ha-1). At the beginning of the non-waterloggedperiod, the total biomass of live fine roots increased by 50%, and the dead fine roots decreased by 27%. The influence of waterlogging onthe vitality of the fine roots is recognizable in their chemical composition: under waterlogged condition, live fine roots contained distinctly less K, Mg and Zn, but more Mn, than during the non-waterlogged period. [ABSTRACT FROM AUTHOR]

Published

1997

2. Less is more: Fewer attract-and-kill sites improve the male annihilation technique against Bactrocera dorsalis (Diptera: Tephritidae).

Author

Fezza T, Shelly TE, Fox A, Beucke K, Rohrig E, Aldebron C, and Manoukis NC

Subjects

Animals, Male, Insect Control methods, Drosophila, Tephritidae, Insecticides pharmacology, Eugenol analogs & derivatives

Abstract

The Male Annihilation Technique (also termed the Male Attraction Technique; "MAT") is often used to eradicate pestiferous tephritid fruit flies, such as Bactrocera dorsalis (Hendel). MAT involves the application of male-specific attractants combined with an insecticide in spots or stations across an area to reduce the male population to such a low level that suppression or eradication is achieved. Currently, implementations of MAT in California and Florida targeting B. dorsalis utilize the male attractant methyl eugenol (ME) accompanied with a toxicant, such as spinosad, mixed into a waxy, inert emulsion STATIC ME (termed here "SPLAT-MAT-ME"). While highly effective against ME-responding species, such applications are expensive owing largely to the high cost of the carrier matrix and labor for application. Until recently the accepted protocol called for the application of approximately 230 SPLAT-MAT-ME spots per km2; however, findings from Hawaii suggest a lower density may be more effective. The present study adopted the methods of that earlier work and estimated kill rates of released B. dorsalis under varying spot densities in areas of California and Florida that have had recent incursions of this invasive species. Specifically, we directly compared trap captures of sterilized marked B. dorsalis males released in different plots under three experimental SPLAT-MAT-ME densities (50, 110, and 230 per km2) in Huntington Beach, CA; Anaheim, CA; and Sarasota-Bradenton, FL. The plots with a density of 110 sites per km2 had a significantly higher recapture proportion than plots with 50 or 230 sites per km2. This result suggests that large amounts of male attractant may reduce the ability of males to locate the source of the odor, thus lowering kill rates and the effectiveness of eradication efforts. Eradication programs would directly benefit from reduced costs and improved eradication effectiveness by reducing the application density of SPLAT-MAT-ME., Competing Interests: The authors have declared that no competing interests exist., (Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.)

Published

2024

3. The Development and Evaluation of Insect Traps for the Asian Citrus Psyllid, Diaphorina citri (Hemiptera: Psyllidae), Vector of Citrus Huanglongbing.

Author

Snyder J, Dickens KL, Halbert SE, Dowling S, Russell D, Henderson R, Rohrig E, and Ramadugu C

Abstract

Citrus huanglongbing (HLB) is a severe problem for citrus cultivation. The disease management programs benefit from improved field tools suitable for surveying the ACP vector (Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera: Psyllidae)) and the associated pathogen. In the present study, we utilize three-dimensional (3D) printers and design tools to develop traps that can capture and preserve ACPs. Three novel, 3D-printed traps were designed and evaluated: stem trap, and cylinder traps 1 and 2. The traps and yellow sticky cards were deployed weekly for 8 months in 2 non-commercial citrus groves in Florida; in California, the traps were evaluated for 12 months in field cages and 4 citrus groves. The stem traps captured lower numbers of ACPs at all experimental sites compared to the cylinder traps. Capture rates in the cylinder traps were comparable to the sticky trap, making the device a viable tool for monitoring field ACPs. The two main advantages of using the reusable 3D traps over standard methods of ACP and HLB surveys include dynamic sampling that can be conducted year-round and the capture of ACPs that can be preserved and tested. Improved trapping may facilitate quick management decisions and mitigate HLB.

Published

2022

4. Advancements in Mass Rearing the Air Potato Beetle Lilioceris cheni .

Author

Kraus EC, Murray R, Kelm C, Poffenberger R, Rohrig E, and Fairbanks K

Abstract

The air potato beetle, Lilioceris cheni Gressitt and Kimoto (Coleoptera:Chrysomelidae) , is a successful biological control agent of the air potato vine, Dioscorea bulbifera L. (Dioscoreales: Dioscoreaceae) , in the southern United States. Lilioceris cheni is currently being mass-reared by the Florida Department of Agriculture and Consumer Services Division of Plant Industry (FDACS-DPI) for biological control releases and research. The facility rears and releases over 50,000 adult beetles annually at approximately 1000 different locations. In addition to data on beetle production and distribution, studies on alternative larval and adult diets are described. Adults fed bulbils as the sole food source had reduced life spans compared with beetles given fresh air potato leaves. Adults survived without air potato leaves or bulbils for several days to two weeks depending on availability of leaves at emergence. Larvae did not survive on a modified artificial Colorado potato beetle diet containing fresh air potato vine leaves. Adults survived while consuming artificial diet but ceased oviposition. They, however, resumed egg laying less than one week after being returned to a diet of fresh air potato vine leaves.

Published

2022

5. Bionomics of Asian Citrus Psyllid (Hemiptera: Liviidae) Associated with Orange Jasmine Hedges in Southeast Central Florida, with Special Reference to Biological Control by Tamarixia radiata.

Author

Hall DG and Rohrig E

Subjects

Animals, Florida, Food Chain, Hemiptera growth & development, Nymph growth & development, Nymph parasitology, Nymph physiology, Ovum growth & development, Ovum parasitology, Ovum physiology, Wasps genetics, Hemiptera parasitology, Hemiptera physiology, Murraya growth & development, Pest Control, Biological, Wasps physiology

Abstract

The Asian citrus psyllid, Diaphorina citri Kuwayama, is an important pest in Florida because it transmits bacteria responsible for citrus huanglongbing disease. In addition to infesting citrus, orange jasmine (Murraya exotica L.) is one of Asian citrus psyllid's preferred host plants and is widely grown as an ornamental hedge. We report on Asian citrus psyllid bionomics over three years at five urban plantings of orange jasmine and on biological control of Asian citrus psyllid by a parasitoid Tamarixia radiata (Waterston). T. radiata had been released in Florida shortly after Asian citrus psyllid was first found, and the parasitoid was known to be established at each planting. Additionally, three new T. radiata haplotypes were released every 3 wk at three plantings during the first study year (one haplotype per planting, over all releases an average of 17 parasitoids per linear meter of hedge); all three haplotypes were released at a fourth planting beginning midway through the study (over all releases, an average combined total of 202 parasitoids per linear meter of hedge). Asian citrus psyllid populations were present year-round at each planting, often at large levels. Such plantings may pose risk to commercial citrus as Asian citrus psyllid reservoirs. Releases of the new haplotypes did not cause any measurable reduction in Asian citrus psyllid population levels during the study, and ironically percentage parasitism was generally highest at a planting where no releases were made. Higher release rates might have been more effective. The probability is discussed that repetitive pruning of orange jasmine reduced the full potential of T. radiata against Asian citrus psyllid in this study., (Published by Oxford University Press on behalf of Entomological Society of America 2015. This work is written by US Government employees and is in the public domain in the US.)

Published

2015

6. A floral-derived compound attractive to the tephritid fruit fly parasitoid Diachasmimorpha longicaudata (Hymenoptera: Braconidae).

Author

Rohrig E, Sivinski J, Teal P, Stuhl C, and Aluja M

Subjects

Animals, Chromatography, Gas, Female, Flight, Animal, Male, Mass Spectrometry, Flowers chemistry, Hymenoptera physiology, Pheromones chemistry

Abstract

Many adult hymenopteran parasitoids, even host-feeding species, consume the nectar of flowering plants. Previous field studies had identified plants attractive (Lobularia maritima L.) and unattractive (Spermacoce verticillata L) to certain opiine braconids (Hymenoptera). Under laboratory conditions, Diachasmimorpha longicaudata (Ashmead), a parasitoid of tephritid fruit fly larvae and representative opiine, responded in flight tunnels to L. maritima but not to S. verticillata. Volatile chemicals of the two flowers were collected and analyzed by using capillary gas liquid chromatography and mass spectral analysis. Acetophenone was isolated from L. maritima but not from S. verticillata. In flight tunnels, D. longicaudata were exposed to 10 concentrations (doses) of acetophenone. Female parasitoids showed a significant attraction to several acetophenone doses, with concentrations of 25 and 50 ng the most attractive. No odor source, either floral or floral-derived, was attractive to male parasitoids. Reliable trapping systems for parasitoid species, particularly species such as D. longicaudata used for augmentative biological control, would be a valuable monitoring tool. At present, there are few, if any, florally derived synthetic lures for attracting hymenopteran parasitoids.

Published

2008