32 research outputs found

    Lasioseius confusus Evans 1958

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    <i>Lasioseius confusus</i> Evans, 1958 <p> <i>Lasioseius confusus</i> Evans, 1958: 221.</p> <p> More information about the synonyms and nomenclatural history of this species are available in Moraes <i>et al</i>. (2016: 164).</p> <p> <b>Habitat and distribution in Iran</b> – East Azarbaijan Province (forests of Arasbaran Region), soil, leaf-litter and plant debris (Ordoukhanian <i>et al.</i> 2017; Nemati <i>et al</i>. 2018).</p> <p> <b>World Distribution</b> – Bulgaria, China, England, Hungary, Moldova, Poland, Russia, Slovakia and USA (Santos <i>et al</i>. 2023).</p>Published as part of <i>Hajizadeh, Jalil, Javadpour, Mahboubeh & Mohammadi, Leila, 2023, Review of the genus Lasioseius Berlese (Acari: Blattisociidae) in Iran, and a key for identification of the Iranian species of the genus, pp. 463-485 in Persian Journal of Acarology 12 (4)</i> on pages 464-465, DOI: 10.22073/pja.v12i4.82177, <a href="http://zenodo.org/record/10943472">http://zenodo.org/record/10943472</a&gt

    Lasioseius berlesei

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    <i>Lasioseius berlesei</i> (Oudemans, 1938) <p> <i>Typhlodromus berlesei</i> Oudemans, 1938: 2.</p> <p> More information about the synonyms and nomenclatural history of this species are available in Moraes <i>et al</i>. (2016: 162).</p> <p> <b>Habitat and distribution in Iran</b> – Zanjan Province (Zanjan County), soil, rotten wood, fungi, litter, and dung (Zare <i>et al.</i> 2012; Nemati <i>et al</i>. 2018).</p> <p> <b>World Distribution</b> – Algeria, Austria, Bulgaria, England, Europe, Germany, Hungary, Iran, Iraq, Italy, Latvia, Moldova, Poland, Russia, Slovakia, Switzerland, Turkey, Ukraine and USA (Santos <i>et al</i>. 2023).</p>Published as part of <i>Hajizadeh, Jalil, Javadpour, Mahboubeh & Mohammadi, Leila, 2023, Review of the genus Lasioseius Berlese (Acari: Blattisociidae) in Iran, and a key for identification of the Iranian species of the genus, pp. 463-485 in Persian Journal of Acarology 12 (4)</i> on page 464, DOI: 10.22073/pja.v12i4.82177, <a href="http://zenodo.org/record/10943472">http://zenodo.org/record/10943472</a&gt

    Lasioseius dentatus

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    <i>Lasioseius dentatus</i> (Fox, 1946) <p> <i>Borinquolaelaps dentatus</i> Fox, 1946: 451.</p> <p> More information about the synonyms and nomenclatural history of this species are available in Moraes <i>et al</i>. (2016: 165).</p> <p> <b>Material examined</b> – Two females, Lowshan, 36° 37' 46'' N, 49° 30' 50'' E, 360 m a.s.l., July 2015 collected from soil of olive garden.; two females, Rasht, Khomam, 37° 22' 55'' N, 49° 39' 35'' E, − 16 m a.s.l., May 2019, collected from weeds; one female, Rasht, Kuchesfahan, 37° 16' 42'' N, 49° 46' 21'' E, 0 m a.s.l., May 2019, collected from weeds.</p> <p> <b>Habitat and distribution in Iran</b> – Kerman Province (Kerman City, parks, and landscapes), soil (Arjomandi and Kazemi 2014; Nemati <i>et al</i>. 2018); Guilan Province (Rasht, Lowshan), wood sorrel, Oxalis <i>acetosella</i> L. (Oxalidaceae) leaves infested with spider mites, litter, soil of olive garden (Javadpour <i>et al</i>. 2018; Ghasemi and Hajizadeh 2020).</p> <p> <b>Note</b> – This species was reported by mentioned authors as <i>Lasioseius scapulatus</i> Kennett, 1958, but Lindquist (1964) considered it as junior synonym of <i>L. dentatus</i> (Moraes <i>et al</i>. 2015a; Nemati <i>et al</i>. 2018).</p> <p> <b>World Distribution</b> – China, Egypt, Israel, Japan, Mexico, Puerto Rico, Saudi Arabia, Uganda and USA (Santos <i>et al</i>. 2023).</p>Published as part of <i>Hajizadeh, Jalil, Javadpour, Mahboubeh & Mohammadi, Leila, 2023, Review of the genus Lasioseius Berlese (Acari: Blattisociidae) in Iran, and a key for identification of the Iranian species of the genus, pp. 463-485 in Persian Journal of Acarology 12 (4)</i> on page 465, DOI: 10.22073/pja.v12i4.82177, <a href="http://zenodo.org/record/10943472">http://zenodo.org/record/10943472</a&gt

    Retracted:Pulmonary Hypertension due to a Pulmonary Artery Leiomyosarcoma: A Case Report.

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    The article titled "Pulmonary Hypertension due to a Pulmonary Artery Leiomyosarcoma: A Case Report."(1), published online on March 2014 in ARYA Atherosclerosis Journal, and in Volume 10, pp. 133-136, has been retracted by the Editor-in-Chief of this journal. The decision was made due to duplicate submission of the manuscript by the same authors in "Seyyed Hassan Adeli, Bardia Nemati, Mahboubeh Jandaghi, Mohammad Mahdi Riahi, Fatemeh Hosseinzadeh, and Fatemeh Salarvand. Pulmonary Hypertension due to a Pulmonary Artery Leiomyosarcoma: A Case Report. Case Rep Pulmonol. 2013; 2013: 160619".</span

    Lasioseius youcefi Athias-Henriot 1959

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    &lt;i&gt;Lasioseius youcefi&lt;/i&gt; Athias-Henriot, 1959 &lt;p&gt; &lt;i&gt;Lasioseius youcefi&lt;/i&gt; Athias-Henriot, 1959: 177.&lt;/p&gt; &lt;p&gt; More information about the synonyms and nomenclatural history of this species are available in Moraes &lt;i&gt;et al&lt;/i&gt;. (2016: 191).&lt;/p&gt; &lt;p&gt; &lt;b&gt;Material examined&lt;/b&gt; &ndash; One female, Langarud, 30&deg; 10' 50'' N, 11&deg; 37' 0'' E, 21 m a.s.l, June 2011, collected from citrus leaves; three females, Chaboksar, 36&deg; 58' 0'' N, 50&deg; 35' 0'' E, 216 m a.s.l., October 2011, collected from soil of citrus tree; four females, Lahijan, 37&deg; 12' 25'' N, 50&deg; 00' 00'' E, 4 m a.s.l., October 2012, collected from infected leaves with eriophyid mites; one female, Chaboksar 36&deg; 58' 34'' N, 50&deg; 33' 37'' E, 216 m a.s.l., August 2015, collected from soil; one female, Rudsar, 37&deg; 8' 0&quot; N, 50&deg; 17' 0&quot; E, &minus; 19 m, October 2015, collected from soil; three female, Chaboksar 36&deg; 58' 34'' N, 50&deg; 33' 37'' E, 216 m a.s.l., October 2015, collected from soil of citrus and pomegranate garden; one female, Rasht, Kuchesfahan, 0 m, 37&deg; 16' 42'' N, 49&deg; 46' 21'' E, May 2019, collected from plant peat; one female, Rasht, Khomam, &minus; 16 m, 37&deg; 22' 55'' N, 49&deg; 39' 35'' E, May 2019, collected from weeds.&lt;/p&gt; &lt;p&gt; &lt;b&gt;Habitat and distribution in Iran&lt;/b&gt; &ndash; Hamedan Province (Sarab Gamasiab of Nahavand vicinity), bean, clover (&lt;i&gt;Trifolium&lt;/i&gt; sp.), apple, alfalfa, darnel, liquorice and chick pea, soil and litter of Russian knapweed, &lt;i&gt;Acroptilon repens&lt;/i&gt; (L.) (Khanjani and Kamali 2000; Kamali &lt;i&gt;et al&lt;/i&gt;. 2001; Masoudian and Khanjani 2013); East Azerbaijan Province (Tabriz), soil of orchards, soil (Kamali &lt;i&gt;et al&lt;/i&gt;. 2001; Hashemi Khabir &lt;i&gt;et al&lt;/i&gt;. 2013); West Azerbaijan Province (Urmia), predator of European red mite (Kamali &lt;i&gt;et al&lt;/i&gt;. 2001); (Miandoab Plain), foliage and soil of sugarbeet fields (Haddad Irani-Nejad &lt;i&gt;et al&lt;/i&gt;. 2003); (Salmas), soil and plant debris of apple orchards (Alizadeh and Shirdel 2012); Semnan Province (Dibaj, Cheshmeh-Ali, Tooyehdarvar Village, Agareh Village, Chambari's orchards, Tazareh, Astaneh Village, Damghan, Jafar Abad Village, Mehmandust Village, Astaneh, Cheshmeh gholghol spring, Darvar Village), moss, soil of garden and fields, decaying trunk contents of poplar tree, chicken manure, decaying wood of oleaster trunk with woodborer galleries (Shamsi &lt;i&gt;et al&lt;/i&gt;. 2008); Kermanshah Province (Rijab), fruit orchards (Babakfard &lt;i&gt;et al&lt;/i&gt;. 2008); Guilan Province (Rasht, Manjil, Rostamabad, Rudsar, Chaboksar, Langarud) soil, plants, decaying plants, litter, associated with eriophyid mite, &lt;i&gt;Oxalis acetosella&lt;/i&gt; L. (Oxalidaceae) leaves infested with spider mites (Hajizadeh &lt;i&gt;et al&lt;/i&gt;. 2010a, b; Nazari-Tajani 2012; Adeli &lt;i&gt;et al&lt;/i&gt;. 2013; Javadpour &lt;i&gt;et al&lt;/i&gt;. 2018; Ghasemi and Hajizadeh 2020); Esfahan Province (Shahreza, Esfahan City), Soil (Kavianpour &lt;i&gt;et al&lt;/i&gt;. 2011; Kadkhodaei &lt;i&gt;et al&lt;/i&gt;. 2013); Golestan Province (Gorgan). Soil (Malek-Shahkouyi &lt;i&gt;et al&lt;/i&gt;. 2011); Fars Province (Marvdasht, Kamfiruz), soil and decayed plants under the oak trees, soil (Beyzavi and Ostovan 2012; Asadpoor &lt;i&gt;et al&lt;/i&gt;. 2012); soil, debris (Abolghasemi and Kazemi 2016); Kerman Province (Rafsanjan), soil of fruit orchards (Mohammadi &lt;i&gt;et al&lt;/i&gt;. 2012); (Jiroft), soil (Balooch Shahryari &lt;i&gt;et al&lt;/i&gt;. 2012); Sirjan county, soil, leaf litter and manure (Masnavipour &lt;i&gt;et al&lt;/i&gt;. 2014); (Kerman City, parks and landscapes), soil (Arjomandi and Kazemi 2014); Lorestan Province (Kakareza District), soil of apple orchard (Hasanvand &lt;i&gt;et al&lt;/i&gt;. 2014); Khuzestan Province (Ahvaz). Soil (Nemati &lt;i&gt;et al&lt;/i&gt;. 2012); Chaharmahal and Bakhtiari Province (Shahrekord). Soil (Nemati &lt;i&gt;et al&lt;/i&gt;. 2012); associated with &lt;i&gt;Fomes&lt;/i&gt; sp. (Fungi: Polyporaceae) (Khalili-Moghadam and Nemati 2014); (Boldaji City, Cheghakhor and Shahrekord), soil of ant nests, &lt;i&gt;Tapinoma&lt;/i&gt; sp. (Hym.: Formicidae) (Khalili-Moghadam and Saboori 2015); (Lordegan County, Khanmirza Region, Salehat Village), soil from different parts of oak forests (Bagheri Kordeshami &lt;i&gt;et al&lt;/i&gt;. 2015); Zanjan Province, soil (Bigdeli &lt;i&gt;et al&lt;/i&gt;. 2014); Tehran Province (Tehran City, Police Park), soil (Maleki &lt;i&gt;et al&lt;/i&gt;. 2016); Qom Province, soil, dung, compost and plantlitters of crops, lawns, shrubs and trees in farms, forests, orchards and parks (Agha Alikhani &lt;i&gt;et al&lt;/i&gt;. 2017).&lt;/p&gt; &lt;p&gt; &lt;b&gt;World Distribution&lt;/b&gt; &ndash; Algeria, Austria, Azerbaijan, Bulgaria, China, Egypt France, Germany, Hungary, Iran, Italy, Japan, Latvia, Moldova, Poland, Slovakia, South Africa, South Korea, Switzerland, Taiwan, United Arab Emirates and USA (Fen&dcaron;a and Ma&scaron;&aacute;n 2003; Santos &lt;i&gt;et al&lt;/i&gt;. 2023).&lt;/p&gt;Published as part of &lt;i&gt;Hajizadeh, Jalil, Javadpour, Mahboubeh &amp; Mohammadi, Leila, 2023, Review of the genus Lasioseius Berlese (Acari: Blattisociidae) in Iran, and a key for identification of the Iranian species of the genus, pp. 463-485 in Persian Journal of Acarology 12 (4)&lt;/i&gt; on pages 475-476, DOI: 10.22073/pja.v12i4.82177, &lt;a href="http://zenodo.org/record/10943472"&gt;http://zenodo.org/record/10943472&lt;/a&gt

    Lasioseius sugawarai Ehara 1964

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    &lt;i&gt;Lasioseius sugawarai&lt;/i&gt; Ehara, 1964 &lt;p&gt; &lt;i&gt;Lasioseius sugawarai&lt;/i&gt; Ehara, 1964: 390.&lt;/p&gt; &lt;p&gt; More information about the synonyms and nomenclatural history of this species are available in Moraes &lt;i&gt;et al&lt;/i&gt;. (2016: 187).&lt;/p&gt; &lt;p&gt; &lt;b&gt;Material examined&lt;/b&gt; &ndash; 15 females, Langarud, 21m a.s.l., 30&deg; 10' 50'' N, 11&deg; 37' 0'' E, October 2011, collected from soil and leaves of citrus trees and weeds; 28 females, Chaboksar, 216 m a.s.l., 36&deg; 58' 0'' N, 50&deg; 35' 0'' E, August 2011, collected from soil of citrus trees and weeds; four females, Roudsar, &minus; 12 m, 37&deg; 13' 0'' N, 50&deg; 3' 0'' E, July 2011, collected from soil of citrus trees; 11 females, Lahijan, 2 m, 27&deg; 15' 0'' N, 50&deg; 2' 0'' E, July 2011, collected from soil of citrus tree; two females, Manjil, 396 m a.s.l., 36&deg; 44' 0'' N, 49&deg; 25' 0'' E, July 2013, collected from soil of olive tree; two females, Rostamabad, 36&deg; 88' 33' N, 49&deg; 48' 33' E, 1020 m a.s.l., June 2013, collected from soil of olive tree; one female, Lahijan, 37&deg; 12' 0'' N, 50&deg; 0' 0'' E, 2 m a.s.l., July 2015, collected from tea and mulberry leaves; two females, Emamzadeh Hashem, 37&deg; 01' 27&quot; N, 49&deg; 37' 32&quot; E, 115 m a.s.l., August 2015, collected from Alder tree soil; six females, Langarud, 37&deg; 11' 16'' N, 50&deg; 9' 27'' E, &minus; 14 m, June 2015, collected from soil; one female, Astaneh ye Ashrafiyeh, 37&deg; 15' 54&quot; N, 49&deg; 56' 40&quot; E, &ndash; 2 m, July 2015, collected from citrus leaves; one female, Rezvanshahr, 37&deg; 33' 4&quot; N, 49&deg; 8' 22&quot; E, 15 m a.s.l., October 2015, collected from soil; one female, Rasht 37&deg; 17' 0&quot; N, 49&deg; 35' 0&quot; E, &ndash; 7 m a.s.l., August 2015, collected from rotten fruits; five females, Chaboksar 36&deg; 58' 34'' N, 50&deg; 33' 37'' E, 216 m a.s.l., October 2015, collected from soil of citrus garden; five females, Rasht, Khomam, &ndash; 16 m a.s.l., 37&deg; 22' 55'' N, 49&deg; 39' 35'' E, December 2018, collected from weeds; 12 females, Rasht, 4 m a.s.l., 37&deg; 16' 51'' N, 49&deg; 34' 59'' E, January 2019, collected from soil, weeds and flower; three females, Sangar, 37&deg; 10' 59&quot; N, 49&deg; 38' 42&quot; E, 34 m a.s.l., February 2019, collected from soil and weeds; two females, Kuchesfahan, 0 m, 37&deg; 16' 42'' N, 49&deg; 46' 21'' E, May 2019, collected from plant peat and weeds.&lt;/p&gt; &lt;p&gt; &lt;b&gt;Habitat and distribution in Iran&lt;/b&gt; &ndash; Fars Province (Jahrom), soil of citrus orchards (Khademi &lt;i&gt;et al&lt;/i&gt;. 2006); Mazandaran Province (Amol), soil (Sakenin Chelav &lt;i&gt;et al&lt;/i&gt;. 2006a, b); Alborz Province (Eshtehard), compost (Kheradmand &lt;i&gt;et al&lt;/i&gt;. 2007); Guilan Province (Manjil, Lahijan, Emamzadeh Hashem, Langarud, Astaneh ye Ashrafiyeh, Rezvanshahr, Rasht, Chaboksar, Rahimabad, Roudsar), soil, plants, soil and on the olive leaves, soil of citrus garden, tea and mulberry leaves, citrus leaves, rotten fruits, litter, &lt;i&gt;Schefflera arboricola&lt;/i&gt; (Araliaceae) 1eaves infested with mealybugs, wood sorrel, &lt;i&gt;Oxalis acetosella&lt;/i&gt; L. (Oxalidaceae) leaves and &lt;i&gt;Rosa damascena&lt;/i&gt; (Rosaceae) infested with spider mites, soil of tea gardens (Hajizadeh &lt;i&gt;et al&lt;/i&gt;. 2010a, b; Nazari-Tajani 2012; Mahjoori &lt;i&gt;et al.&lt;/i&gt; 2015; Nemati &lt;i&gt;et al&lt;/i&gt;. 2018; Javadpour &lt;i&gt;et al&lt;/i&gt;. 2018; Ghasemi and Hajizadeh 2020; Hajizadeh &lt;i&gt;et al&lt;/i&gt;. 2020); Isfahan Province (Shahreza, Esfahan), soil (Kavianpour &lt;i&gt;et al&lt;/i&gt;. 2011; Kazemi and Rajaei 2013; Kadkhodaei &lt;i&gt;et al.&lt;/i&gt; 2013).&lt;/p&gt; &lt;p&gt; &lt;b&gt;World Distribution&lt;/b&gt; &ndash; Iran, Japan, Malaysia, South Korea, Taiwan and USA (Santos &lt;i&gt;et al&lt;/i&gt;. 2023).&lt;/p&gt;Published as part of &lt;i&gt;Hajizadeh, Jalil, Javadpour, Mahboubeh &amp; Mohammadi, Leila, 2023, Review of the genus Lasioseius Berlese (Acari: Blattisociidae) in Iran, and a key for identification of the Iranian species of the genus, pp. 463-485 in Persian Journal of Acarology 12 (4)&lt;/i&gt; on pages 474-475, DOI: 10.22073/pja.v12i4.82177, &lt;a href="http://zenodo.org/record/10943472"&gt;http://zenodo.org/record/10943472&lt;/a&gt

    General health, economic status, and marriage duration as predictors of marital commitment during reproductive age among Iranian married women

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    Background: One of the important factors involved in a successful marriage during reproductive age is marital commitment. The aim of this study was to find which factors predict marital commitment during reproductive age in Iranian married women. Methods: This cross-sectional, population-based study was performed on married women. Adams and Jones' Dimensions of Commitment Inventory (DCI) were used to assess marital commitment. In addition, their current mental health was assessed using General Health Questionnaire (GHQ). The socioeconomic status of the participants was calculated based on household income, employment status, and education level. A total of 160 married women, who were between 15-49 years of age and were from six districts of Babol, were selected using a systematic random sampling method. Stepwise multiple regressions were used to determine the effect of independent variables on marital commitment. Results: The results of multiple regression showed that general health, the duration of marriage, and the economic status with standard beta coefficients of (-0.324), (-0.259), and (0.173) had the highest regression effect on marital commitment, respectively. These variables accounted for a total of 33% of the distribution of marital commitment. Conclusion: These findings suggest that general health, economic status, and the duration of marriage are predicable variables for marital commitment. It is necessary to emphasize the benefit of improving general health and economic status in increasing the degree of marital commitment, especially among women with longer duration of marriage

    Wearing your destination: Making tourism experience accessible for people with travel hesitation by using smart glasses

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    Abstract This quantitative study is probably one of the primary efforts for offering a potential solution for people with short- and long-term travel hesitation through the lense of Self-Efficacy and Learned Helplessness Theories as well as Technology Acceptance Model (TAM). In this study, travel hesitation is divided to two segments of permanent and temporary. Permanent travel hesitation includes age restrictions, visual, hearing, body impairment, Autism, and any types of disabilities. Furthermore, temporary travel hesitation includes traveling cost, having a new-born, having any types of phobias, being afraid of COVID-19 or any other COVID variants, and having no desires and interest for travel. The purpose of this study is to offer a solution for people with travel hesitations, and it includes three research questions. The data were collected from 344 sample size through Amazon Mechanical Turk (MTurk) in December 2021. The collected data were analysed through SmartPlS 3.0 software using PLS algorithm and bootstrapping techniques. This research findings verified that people with travel hesitation had willingness to use smart glasses for their travel purposes and also people’s intention to travel physically to a destination after trying smart glasses was increased.Embargo status: Restricted until 09/2027. To request the author grant access, click on the PDF link to the left

    A Critique and study of a narrative of the Fatimids of Egypt and the Ismaili based on the story of Bustan-e-Khayal (Based on historical sources)

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    Stories and tales as an important part of popular culture are the connection between people now and the past that transmits cultural and doctrinal principles from one generation to another. Based on the approaches of modern historiography and the narrative context of historical narratives, some stories also contain historical contexts that are useful to study alongside historical sources. The myth of Bustan-e-Khayal is a folk tale based on the history of the Fatimid caliphs of Egypt and the Ismaili Shiites, which begins based on historical events that took place during. The author has brought these historical figures into the realm of myth, attributing imaginary stories to them. This article follows the presence of the Ismaili religion and the Fatimid caliphs in this story and critiques it based on historical sources and narratives in a descriptive-analytical manner. The findings of this study and their critique indicate the empirical confirmation of some of the author's narrations Based on the historical and doctrinal sources of this political and religious sect, but in some cases, there were differences. The extraordinary face that the author presents of some of the Fatimid caliphs was very close to the aspect of the sanctity and divinity of these caliphs, which has been confirmed by the testimony of historical narrator
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