Chalky spot damage caused by stink bugs on red lentil seeds in Southeast Anatolia Region, Turkey

Mutlu, Çetin; Karaca, Vedat; Eren, Sedat; Büyük, Musa; Gözüaçık, Celalettin; Duman, Mehmet; Bayram, Yunus; Bolu, Halil; Kütük, Halil

doi:10.18805/lr.v0iof.9437

Cited by 6 publications

(6 citation statements)

References 3 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…These insects feed on developing bolls and deform them, lower yield and quality, and cause boll abscission [7][8][9][10][11][12][13][14]. Stinkbugs' feeding also ensures microorganisms' entry to the fruits, resulting in physiological damage and fruit degradation [15][16][17][18][19][20]. The peak yield losses in South Carolina due to stinkbugs were recorded during 2005 [21].…”

Section: Introductionmentioning

confidence: 99%

The impact of adjacent habitats on population dynamics of red cotton bugs and lint quality

et al. 2020

View full text Add to dashboard Cite

Red cotton bugs [Dysdercus spp. (Hemiptera: Pyrrhocoridae] are among the most destructive pests of cotton and many other crops. Red cotton bugs (RCBs hereafter) damage cotton plants by sucking sap and deteriorate lint by staining. The incidence of RCBs causes boll injury along the field margins neighboring with various peripheral areas. The adjacent habitat/crops strongly mediate the population dynamics of RCBs. However, limited is known about the impact of adjacent habitat on population dynamics of RCBs and lint quality. This two-year field study evaluated the impact of adjacent habitat (okra, unpaved road, water channel and Eucalyptus trees) on population dynamics of RCBs and lint quality of cotton. The RCBs were sampled weekly from margins to 4 meter inside the cotton field. The RCBs’ populations were monitored and plucked cotton bolls were examined for internal damage. The highest incidence of RCBs was recorded for cotton field adjacent to okra and water channel. Similarly, the highest number of damaged bolls were observed for the field side neighboring with okra and water channel. Furthermore, the highest number of unopened bolls were recorded for okra and water channel sides with higher percentage of yellowish lint. Field sides bordering with Eucalyptus trees and unpaved road had lower RCBs incidence and lint staining. Nonetheless, RCBs incidence was higher at field margins compared to field center indicating that population was strongly affected by adjacent habitat. It is concluded that sowing okra and weedy water channels adjacent to cotton would support RCBs population and subsequent lint staining. Therefore, water channels must be kept weed-free and okra should not be sown adjacent to cotton. Nonetheless, detailed studies are needed to compute monetary damages caused by cotton pests to the crop. Furthermore, effective management strategies must be developed to manage RCBs in cotton to avoid lint-staining problem.

show abstract

Section: Introductionmentioning

confidence: 99%

The impact of adjacent habitats on population dynamics of red cotton bugs and lint quality

et al. 2020

View full text Add to dashboard Cite

show abstract

“…It is thought that the grain pest P. luridus, D. baccarum and E. integriceps, which were detected in Meyanca and Ekenek locations, came from the barley and lentil fields nearby. Many studies have reported that aforementioned pests cause significantly damage to red lentil, wheat and barley fields (Mutlu et al, 2016;Mutlu et al, 2018a;Mutlu et al, 2018b). Since plant pattern in Şehirbağı, Karabaş and Baraj was generally composed of only pistachios while in Meyanca and Ekenek barley and lentil along with pistachios were grown in large areas.…”

Section: Resultsmentioning

confidence: 99%

Overwintering insect (Arthropoda: Insecta) biodiversity in pistachio orchards of the Middle Euphrates Valley, Turkey

Sabuncu¹,

Mamay

Özgen

2021

Harran Tarım Ve Gıda Bilimleri Dergisi

View full text Add to dashboard Cite

This study was conducted to determine the overwintering insect biodiversity in pistachio orchards of the Middle Euphrates Valley, Turkey during 2017 and 2018 by artificial overwintering shelters. Artificial overwintering shelters were established in five pistachio orchards in Şehirbağı, Karabaş, Meyanca, Baraj and Ekenek locations. Ten trees were selected within each orchard and five of these were covered with a burlap sack and the rest were covered with corrugated cardboard through September and January. Twenty insect species belonging to15 families and 4 orders were recorded from the studied orchards. These recorded species were;

show abstract

“…But the list of lentil pests is larger if local or regional pests are added to the list of global and general pests. For instance, chalky spot damage on red lentil, caused by the stink bugs Piezedorus lituratus and Dolycorus baccarum, is the most important problem waiting for a solution regarding plant health at lentil cultivation in Southeast Anatolia Region, Turkey (Mutlu et al 2016). Although trips are less frequently mentioned as lentil pest, some trip species have been described as pea and lentil pest during spring in Eastern Europe (Pobozniak 2011).…”

Section: Pestmentioning

confidence: 99%

Tackling Lentil Biotic Stresses in the Genomic Era

Vega

Garcı́a

Gutiérrez-González

et al. 2022

Genomic Designing for Biotic Stress Resistant Pulse Crops

View full text Add to dashboard Cite

Lentils are already one of the main pulses of the world, as they are one of the main sources of protein for humans. As a crop, they are also gaining momentum because the rusticity and tolerance to water scarcity of some varieties are a good fit with the current global warming trend and climate change in general. However, while the harvested area and overall production have drastically increased over the last decades, yield has only experienced very modest increments. The reasons are two-fold. First, pathogens are affecting the crop as never before, likely due to not only the changing climate but also to the expansion of lentil cultivation to new geographic areas. Second, genomics-aided breeding is far behind many other crops. This is in partly due to the lack of genomic tools currently available to researchers. Progress is being made to adopt high-throughput genomic methods, and researchers will be able to tackle lentil gene discovery and breeding for pathogen resistance and other biotic stresses more efficiently in the coming years. We outline the current situation, novel findings, and prospects of lentil research for biotic stresses. IntroductionLentil (Lens culinaris Medik. subsp. culinaris) is one of the first domesticated species in the Fertile Crescent and along with barley, emmer wheat and einkorn wheat, pea, chickpea, and flax was part of the set of crops that defined the beginnings of the Neolithic transition to agriculture in this part of the World. The origin of the cultivated form is the wild L. culinaris subsp. orientalis (Boiss.) Ponert (syn. L. orientalis Boiss.). A recent publication by Liber et al. (2021) suggests that phylogenetics, population structure, and archeological data coincide in a lentil domestication prolonged in time in Southwest Asia, with two different domesticated gene pools. From the

show abstract

Chalky spot damage caused by stink bugs on red lentil seeds in Southeast Anatolia Region, Turkey

Cited by 6 publications

References 3 publications

The impact of adjacent habitats on population dynamics of red cotton bugs and lint quality

The impact of adjacent habitats on population dynamics of red cotton bugs and lint quality

Overwintering insect (Arthropoda: Insecta) biodiversity in pistachio orchards of the Middle Euphrates Valley, Turkey

Tackling Lentil Biotic Stresses in the Genomic Era

Contact Info

Product

Resources

About