alternative hosts
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Agronomy ◽  
2021 ◽  
Vol 12 (1) ◽  
pp. 77
Author(s):  
Louise Lérault ◽  
Elsa Clavel ◽  
Cinthya M. Villegas ◽  
Nuri Cabrera ◽  
Bruno Jaloux ◽  
...  

There are many different practices that contribute to conservation biological control, but little is known about their complementarity. We tested the effects of providing food and alternative hosts to parasitoids by intercropping a plum orchard with companion plants. Oats and vetch were intercropped into the orchard either as single-species (oats or vetch) or two-species (oats and vetch combined) intercrops within an inter-row. The trophic resources provided by these intercrops were assessed, along with the incidences of aphids and their parasitoids in plum trees. We found up to ten alternative host species provided by oats and vetch, and extrafloral nectar was available from the vetch and mixed strips. An effect of intercrop type and distance to plum trees was observed on aphid incidence during one sampling period. Parasitism rates in exclusion cages were affected by intercrop type, reaching almost 60% close to the mixed intercrop. However, no general tendency was observed upon whether oats, vetch or their mixture was associated with a lower incidence of aphids. We found no evidence that providing effective sources of food and alternative hosts for parasitoids increased aphid mortality in this study. The context-dependent efficiency of intercropping is discussed.


Author(s):  
Viviana Marcela Aya ◽  
Alejandro Pabón ◽  
Jorge M. González ◽  
Germán Vargas

Abstract The giant sugarcane borer, Telchin licus, has been reported as an economically important sugarcane pest in Colombia; however, its taxonomic status has been scarcely investigated and previous reports offer an ambiguous characterization of both the immature and adult stages. The objective of this work is to identify Telchin species affecting sugarcane and alternative hosts in different departments of the country by integrating molecular analysis and conventional morphology. To date, T. licus has been found in the departments of Caquetá, Casanare, and Meta, while T. atymnius has been found in Antioquia, Caldas, Nariño, and Valle del Cauca. Sugarcane, Musaceae, and Heliconiaceae have been found to be hosts to both species. Additionally, the species T. cacica has also been registered in the department of Nariño, affecting heliconias and plantains. Genetic variation within the species allowed differentiation at the molecular level of subspecies of T. licus and T. atymnius, confirming that the subspecies present in Colombia are T. licus magdalena, T. atymnius humboldti, and T. atymnius atymnius. The haplotype diversity of populations is closely related to their geographical distribution, indicating low gene flow between populations and possible speciation inside the country. Analysis of genetic variance showed significant differences among and within T. atymnius populations, which may suggest a high genetic structure along the regions where it is found and the possible presence of additional subspecies to those previously reported. To understand the geographical and environmental conditions that determine the pest's distribution in Colombia, this information needs to be complemented with ecological considerations of possible geographical isolation and association of alternative hosts.


Author(s):  
Andrew M. Biedermann ◽  
Isabella R. Gengaro ◽  
Sergio A. Rodriguez‐Aponte ◽  
Kerry R. Love ◽  
J. Christopher Love

2021 ◽  
Vol 39 (3) ◽  
pp. 173-180
Author(s):  
Hatem Motaab Hussein ◽  
◽  
Sindab Jassem Al Dahwi ◽  

The dust mite Oligonychus afrasiaticus (McGregor) on date palm trees is one of the main pests affecting palm trees in Iraq. Its severity has increased its damage to the crop in recent years. A study of some environmental aspects of the pest such as alternative hosts, spread and distribution of the pest after harvesting and overwintering are important factors to identify pest's vulnerable periods, which can be utilized in the control process. The results revealed that the pest had activity during the spring on alternative hosts Sorghum bicolor, S. halepense, and Cynodon dactynlon. Surveying vegetables that are inter-planted with palm groves, the pest was found present in the field on the Fragaria ananassa, Cucurbita pepo, Solanum melongena, and Citrullus lanatus. At the "rutab" and "tamar" stages, higher numbers of O. afrasiaticus began to leave the dates fruit bunches to pinnae of frond trees and offshoot to feed and reproduce until the onset of winter and remain there as fertile females to resume their activities during the following spring. The highest density of mobile instars and eggs reached 0.9 individual/pinna and 1.4 egg/pinna, respectively, in October, and then the numbers began to decline to reach 0.3 individual/pinna during the winter period, when no eggs were observed. Furthermore, some plant species provided food and shelter for the pest during the winter period such as C. dactylon, S. halepense, Imperata cylindrica and Phragmites australis. Results obtained also showed that date palm seedlings grown randomly in the orchard under study acted as a refuge for the dust mite, as it fed and multiplied continuously on them for several generations and throughout the year. Keywords: Oligonychus afrasiaticus, overwintering, alternative hosts


mSphere ◽  
2021 ◽  
Author(s):  
Jonathon L. Baker

ABSTRACT Saccharibacteria (formerly TM7) have reduced genomes and a small cell size and appear to have a parasitic lifestyle dependent on a bacterial host. Although there are at least 6 major clades of Saccharibacteria inhabiting the human oral cavity, complete genomes of oral Saccharibacteria were previously limited to the G1 clade. In this study, nanopore sequencing was used to obtain three complete genome sequences from clade G6. Phylogenetic analysis suggested the presence of at least 3 to 5 distinct species within G6, with two discrete taxa represented by the 3 complete genomes. G6 Saccharibacteria were highly divergent from the more-well-studied clade G1 and had the smallest genomes and lowest GC content of all Saccharibacteria . Pangenome analysis showed that although 97% of shared pan- Saccharibacteria core genes and 89% of G1-specific core genes had putative functions, only 50% of the 244 G6-specific core genes had putative functions, highlighting the novelty of this group. Compared to G1, G6 harbored divergent metabolic pathways. G6 genomes lacked an F 1 F o ATPase, the pentose phosphate pathway, and several genes involved in nucleotide metabolism, which were all core genes for G1. G6 genomes were also unique compared to that of G1 in that they encoded d -lactate dehydrogenase, adenylate cyclase, limited glycerolipid metabolism, a homolog to a lipoarabinomannan biosynthesis enzyme, and the means to degrade starch. These differences at key metabolic steps suggest a distinct lifestyle and ecological niche for clade G6, possibly with alternative hosts and/or host dependencies, which would have significant ecological, evolutionary, and likely pathogenic implications. IMPORTANCE Saccharibacteria are ultrasmall parasitic bacteria that are common members of the oral microbiota and have been increasingly linked to disease and inflammation. However, the lifestyle and impact on human health of Saccharibacteria remain poorly understood, especially for the clades with no complete genomes (G2 to G6) or cultured isolates (G2 and G4 to G6). Obtaining complete genomes is of particular importance for Saccharibacteria , because they lack many of the “essential” core genes used for determining draft genome completeness, and few references exist outside clade G1. In this study, complete genomes of 3 G6 strains, representing two candidate species, were obtained and analyzed. The G6 genomes were highly divergent from that of G1 and enigmatic, with 50% of the G6 core genes having no putative functions. The significant difference in encoded functional pathways is suggestive of a distinct lifestyle and ecological niche, probably with alternative hosts and/or host dependencies, which would have major implications in ecology, evolution, and pathogenesis.


Plant Disease ◽  
2021 ◽  
Author(s):  
Tamara D Collum ◽  
Andrew L. Stone ◽  
Diana J. Sherman ◽  
Vernon Dale Damsteegt ◽  
William L. Schneider ◽  
...  

Plum pox virus (PPV) is a significant pathogen of Prunus worldwide and is known for having a broad experimental host range. Many of these hosts represent epidemiological risks as potential wild viral reservoirs. A comparative study of the PPV reservoir capacity of three commonly found native North American species, western choke cherry (P. virginiana var. demissa), black cherry (P. serotina), and American plum (P. americana) was conducted. Pennsylvania isolates of PPV-D were transmitted from the original host peach (P. persica cv. GF305) to all three species. Viral accumulation and transmission rates to alternative hosts and peach were monitored over the course of five vegetative growth and cold induced dormancy (CID) cycles. The three alternative host species demonstrated differences in their ability to maintain PPV-D and the likelihood of transmission to additional alternative hosts or back transmission to peach. Western choke cherry had low (5.8%) initial infection levels, PPV-D was not transmissible to additional western choke cherry, and transmission of PPV-D from western choke cherry to peach was only possible before the first CID cycle. Black cherry had intermediate initial infection levels (26.6%) but did not maintain high infection levels after repeated CID cycles. Conversely, American plum had a high level (50%) of initial infection that was not significantly different from initial infection in peach (72.2%) and maintained moderate levels (15-25%) of infection and PPV-D transmission to both American plum and peach through all five cycles of CID. Our results indicate that American plum has the greatest potential to act as a reservoir host for Pennsylvania isolates of PPV-D.


Insects ◽  
2021 ◽  
Vol 12 (8) ◽  
pp. 667
Author(s):  
Joshua A. Grant ◽  
Ashfaq A. Sial

Drosophila suzukii, an economically important pest of small and thin-skinned fruits, has caused annual crop losses up to 20% in the state of Georgia’s multimillion-dollar blueberry industry. The known host range of D. suzukii is large, yet the breadth of uncultivated and wild plants that can serve as alternative hosts in the southeastern United States is still not fully understood. Establishing comprehensive lists of non-crop D. suzukii hosts in woodlands near blueberry production will assist in the creation of more sustainable integrated pest management (IPM) strategies. Objectives of this study were to determine viability of wild fruiting plant species to this pest based on survivorship to adulthood and assess D. suzukii short-range preference between cultivated blueberries and wild fruit. Laboratory choice and no-choice assays were performed to determine if D. suzukii could complete its development on wild fruits sampled from the field. Results from our no-choice assays indicated that multiple species of wild fruits surveyed in Georgia were viable D. suzukii hosts including blackberry species, deerberry, hillside blueberry, common pokeweed, beautyberry, elderberry, evergreen blueberry, and large gallberry. Yet, none of these hosts were preferred by adult female D. suzukii as ovipositional substrates when compared to cultivated blueberries. However, these uncultivated species have the potential to sustain D. suzukii populations pre- and post-harvest season. This information can help farmers do more targeted management of these viable alternative hosts from wooded areas surrounding blueberry fields in order to minimize D. suzukii populations.


Author(s):  
Dolar Pak ◽  
Ming Pei You ◽  
Vincent Lanoiselet ◽  
Martin J. Barbetti

2021 ◽  
Author(s):  

Abstract C. africana is the ergot pathogen of Sorghum bicolor, now found in most sorghum-producing areas of the world. It is primarily a problem for hybrid seed production, but epidemics on local varieties have occurred (Pazoutová and Frederickson, 2005). Large numbers of secondary conidia produced on infected panicles become airborne and are presumed to be the means by which the fungus has spread rapidly across continents in recent years. The fungus may also be carried in the form of sclerotia and/or sphacelia among harvested seed, and this may be the means of spread between continents, but the seed lots can be cleaned or treated with fungicides. Alternative hosts are predominantly wild and weedy Sorghum spp., but some wild grasses can become infected; any of these might provide a reservoir between planting seasons or a bridge between regions.


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