			Home About us Contact

Commercial Greenhouses (commercial + greenhouse)

Distribution by Scientific Domains

Life Sciences	100%

Selected Abstracts

Detection of Phytoplasma Infection in Rose, with Degeneration Symptoms

JOURNAL OF PHYTOPATHOLOGY, Issue 1 2001
M. Kami
In 1998 a severe disease was observed on rose cvs. ,Patina', ,Papillon' and ,Mercedes' cultivated in a commercial greenhouse in Poland. The symptoms included stunted growth, bud proliferation, leaf malformation and deficiency of flower buds. Sporadically some plants yielded flower buds transformed into big-bud structures and degenerated flowers. The presence of phytoplasma in roses with severe symptoms as well as in recovered plants and Catharanthus roseus experimentally infected by grafting and via dodder was demonstrated by nested polymerase chain reaction assay with primers pair R16F2/R2 or R16F1/R0 and R16(I)F1/R1 amplifying phytoplasma 16S rDNA fragment. The polymerase chain reaction products (1.1 kb) used for restriction fragment length polymorphism analysis after digestion with endonuclease enzymes AluI and MseI produced the same restriction profiles for all samples. The restriction profiles of phytoplasma DNA from these plants corresponded to those of an aster yellows phytoplasma reference strain. Electron microscope examination of the ultra-thin sections of the stem showed wall thickenings of many sieve tubes of the diseased roses and single phytoplasma cells within a sieve element of the phloem of experimentally infected periwinkles. This paper is the first report on aster yellows phytoplasma in rose identified at a molecular level. Detektion einer Phytoplasma-Infektion bei Rosen mit Degenerationserscheinungen Im Jahr 1998 wurde eine schwere Krankheit bei Rosen der Sorten ,Patina', ,Papillon' und ,Mercedes' festgestellt, die in einem polnischen Gewächshaus für kommerzielle Zwecke kultiviert wurden. Zu den Symptomen gehörten Kümmerwuchs, durchwachsene Knospen, Blattmißbildungen und ein Mangel an Blütenknospen. Einige wenige Pflanzen trugen übergroße Blütenknospen, die degenerierte Blüten hervorbrachten. Die Anwesenheit von Phytoplasmen in Rosen mit starken Symptomen, in erholten Pflanzen und in Catharanthus roseus, der durch Pfropfen und durch Teufelszwirn (Cuscuta) experimentell infiziert worden war, wurde mittels einer genesteten Polymerase-Kettenreaktion mit den Primerpaaren R16F2/R2 oder R16F1/R0 und R16(1)F1/R1 zur Amplifikation des Phytoplasma-16S rDNA-Fragments demonstriert. Die für die Analyse der Restriktionsfragmentlängenpolymorphismen nach Verdau mit den Endonucleasen AluI und MseI verwendeten PCR-Produkte (1,1 kb) produzierten bei allen Proben die gleichen Restriktionsprofile. Die Restriktionsprofile der Phytoplasma-DNA aus diesen Pflanzen entsprachen denjenigen eines Typenstamms eines Asternvergilbung auslösenden Phytoplasmas. Elektronenmikroskopische Untersuchungen ultradünner Schnitte des Stamms zeigten Wandverdickungen bei zahlreichen Siebröhren der erkrankten Rosen und einzelne Phytoplasmazellen innerhalb eines Siebelements des Phloems experimentell infizierter Immergrün-Pflanzen. Dies ist der erste Bericht über ein auf molekularer Ebene identifiziertes Asternvergilbungs-Phytoplasma bei Rosen. [source]

Vectoring of Pepino mosaic virus by bumble-bees in tomato greenhouses

ANNALS OF APPLIED BIOLOGY, Issue 2 2008
J.L. Shipp
Abstract Pepino mosaic virus (PepMV) has become an important viral disease of greenhouse tomatoes worldwide. The ability of bumble-bees (Bombus impatiens), used for pollination, to acquire and transmit PepMV was investigated, and the prevalence of PepMV in plants and bumble-bees in commercial tomato greenhouses was determined. PepMV infection in plants was determined using enzyme-linked immunosorbent assay, while in bumble-bees direct real-time PCR was used. In the first experiment, the bumble-bees were exposed for 14 days to PepMV-infected plants. After 14 days, almost all bumble-bees were PepMV positive both in the hive (78.5 ± 17.5%) and in the flowers (96.3 ± 3.6%). In the second experiment, bumble-bees were released into a greenhouse with both PepMV-infected source plants and healthy non-infected target plants for 14 days. At the end of the experiment, 61.0 ± 19.5% of the bees collected from the hive and 83.3 ± 16.7% of the bees sampled from the flowers were PepMV positive. Bumble-bees transmitted PepMV from the infected to the healthy non-infected tomato plants. Two weeks after bumble-bee release, the virus was detected in leaf, fruit and flower samples of formerly healthy plants. After 6 weeks, the percentage of PepMV positive samples from the target plants increased to 52.8 ± 2.8% of the leaves and 80.6 ± 8.4% of the fruits. In the control greenhouse without bumble-bees, the target plants did not become infected. Based on the infection levels in flowers, fruits and leaves, the PepMV infection occurred possibly first in the pollinated flowers, and then spread from the fruit that developed from the flowers to other parts of the plant. In commercial greenhouses where PepMV was present, 92,100% of the plants and 88,100% of the bumble-bees were PepMV positive. No infected plant samples were found in the control commercial greenhouse, but a small number of bumble-bees (10%) tested PepMV positive. [source]

Implications of phenotypic variation of Myzus persicae (Hemiptera: Aphididae) for biological control on greenhouse pepper plants

JOURNAL OF APPLIED ENTOMOLOGY, Issue 7 2009
D. R. Gillespie
Abstract Variation in vulnerability to natural enemies, reproductive rate and insecticide resistance among phenotypes of Myzus persicae (Sulzer) has been shown to have the potential to disrupt biological control and IPM of this species, and movement of particularly troublesome phenotypes in international horticultural trade could be cause for concern. Three important components of fitness, vulnerability to parasitoids, reproduction and insecticide resistance were determined in three clones of M. persicae originating from prevalent phenotype populations on pepper crops in greenhouses in British Columbia, Canada. One of these phenotypes appeared to be consistently involved in outbreaks in commercial operations. These clones were also characterized for their DNA microsatellite genotype and compared with genotypes of M. persicae from Europe. The clone involved in outbreaks in commercial greenhouses showed reduced vulnerability to parasitoids, and a higher reproductive rate compared to the other two clones suggesting that these traits may have been involved in outbreaks. As in M. persicae European clones, a higher reproductive rate was correlated with a lack of esterase-based resistance (primarily to organophosphates and, to some extent, to carbamates and pyrethroids). However, microsatellite analysis demonstrated that the three clones investigated in British Columbia had unique genotypes, and therefore there was no evidence for their movement in international trade. [source]

Ultrastructural aspects of tomato leaves infected by Tomato torrado virus (ToTV) and co-infected by other viruses

PLANT PATHOLOGY, Issue 2 2010
A. Alfaro-Fernández
Optical and electron microscopy studies were carried out to investigate the cytopathology induced in tomato leaves infected by Tomato torrado virus (ToTV), a new picorna-like virus associated with the ,Torrado' disease. Infected leaves, showing typical Torrado disease symptoms were surveyed in commercial greenhouses in the main tomato production areas of Spain. The effect of the co-infection of ToTV with other viruses which commonly infect tomato crops was also studied. Ultra-thin sections of ToTV-infected tomato leaves did not show a strong cellular alteration. However, crystalline arrays of isometric virus-like particles (VLPs) of 20,30 nm in the inclusion bodies were observed in phloem parenchyma cells of the infected tissues. Tissues co-infected by ToTV and either Tomato chlorosis virus (ToCV) or Pepino mosaic virus (PepMV) presented more severe cellular alterations. The most deleterious consequences for tomato cells were found in triple infections of ToTV, PepMV and Tomato spotted wilt virus (TSWV), where characteristic cell wall overgrowth was distinguishable, together with a large amount of necrotic cells. [source]