Your search keyword '"Holloway, Jeremy D."' showing total 54 results

1. Geometrid phylogeny from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

The phylogeny of geometrids sampled in this study and used for analysis.

Published

2017

2. Plant phylogeny from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

fungi, food and beverages

Abstract

The phylogeny of plant hosts sampled in this study for geometrids or pyraloids.

Published

2017

3. Pyraloid phylogeny from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

The phylogeny of pyraloids sampled in this study and used for analysis.

Published

2017

4. Figure S7 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

Plots of fitted quasibinomial regressions for both oxidative activity (mg/g) and protein precipitation (mg/g). Plots i) and ii) include only the significant phylogenetic axes common to both moth families, while plots ii) and v) include only the chemical traits, plots iii) and vi) include both phylogenetic axes and chemical traits.

Published

2017

5. Figure S5 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A histogram of mean oxidative activity (mg/g) (± one s.e.) for all 88 species analysed. Species are ordered by the maximum number of days between intra-specific collections.

Published

2017

6. Figure S8 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

sense organs, eye diseases

Abstract

A heatmap of geometrid abundance, oxidative activity (mg/g) and predicted occurrence derived from phylogenetic eigenvectors regression (PVR) including all significant phylogenetic axes. Geometrid abundance was not included as a model term in any PVR analysis.

Published

2017

7. Figure S6 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A histogram of mean protein precipitation (mg/g) (± one s.e.) for all 88 species analysed. Species are ordered by the maximum number of days between intra-specific collections.

Published

2017

8. Appendix 4 from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

Literature review and summary of Geometroidea, Pyraloidea and Thyrididae host use in the oriental region.

Published

2017

9. Figure S3 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

The phylogeny of pyraloids sampled in this study and used for analysis. The species only sampled in the Wanang data set is marked with a star. Branch lengths are equal to substitutions per site.

Published

2017

10. Variation in oxidative activity with time and species from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A histogram of mean oxidative activity (mg/g) (± one s.e.) for all 88 species analysed.

Published

2017

11. Variation in protein precipitation with time and species from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

body regions, nervous system, sense organs, equipment and supplies

Abstract

A histogram of mean protein precipitation (mg/g) (± one s.e.) for all 88 species analysed.

Published

2017

12. Flow chart for PBLM analysis from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

Computer Science::Graphics, Nuclear Theory, Hardware_INTEGRATEDCIRCUITS, Hardware_REGISTER-TRANSFER-LEVELIMPLEMENTATION, Hardware_LOGICDESIGN

Abstract

A schematic diagram of our analytical steps for predicting network structure.

Published

2017

13. Figure S9 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

Correlations between Euclidean distance matrices derived from observed and predicted association between plant hosts a i) geometrid caterpillars (r=0.72, p=0.001) and ii) pyraloid caterpillars (r=0.94, p=0.001).

Published

2017

14. Appendix 2 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A list of individuals sequenced for each gene included in this study, including from published studies (Haines and Rubinoff, 2012; Sihvonen et al., 2011). Red text indicates individuals where close relatives were used as BOLD extracts were not available for the exact specimen.

Published

2017

15. Correlation between observed and predicted values for PBLM analysis from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

Mathematics::Metric Geometry

Abstract

Correlations between Euclidean distance matrices derived from observed and predicted models.

Published

2017

16. Heatmap of geometrid host use across the host phylogeny from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A heatmap of geometrid abundance, oxidative activity (mg/g) and predicted occurrence.

Published

2017

17. Appendix 1 from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

Detailed methods and results section.

Published

2017

18. Appendix 3 from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

A description of taxonomic updates published since Novotny et al. (2010) or resulting from this study.

Published

2017

19. Logistic regression plots from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

Plots of different fitted quasibinomial regressions for both oxidative activity (mg/g) and protein precipitation (mg/g).

Published

2017

20. Figure S4 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Abstract

The phylogeny of geometrids sampled in this study and used for analysis. The species only sampled in the Wanang data set is marked with a star. Branch lengths are equal to substitutions per site.

Published

2017

21. Bornean caterpillar (Lepidoptera) constructs cocoon from Vatica rassak (Dipterocarpaceae) resin containing multiple deterrent compounds

Author

Symondson, William O.C., Holloway, Jeremy D., Goossens, Benoit, and Müller, Carsten T.

Subjects

Biodiversity, Taxonomy

Abstract

Symondson, William O.C., Holloway, Jeremy D., Goossens, Benoit, Müller, Carsten T. (2014): Bornean caterpillar (Lepidoptera) constructs cocoon from Vatica rassak (Dipterocarpaceae) resin containing multiple deterrent compounds. Journal of Natural History 49 (9): 553-560, DOI: 10.1080/00222933.2014.939731

Published

2014

22. Pyrrhia umbra Hufnagel 1766

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Pyrrhia umbra, Insecta, Arthropoda, Pyrrhia, Noctuidae, Animalia, Biodiversity, Taxonomy

Abstract

Pyrrhia umbra (Hufnagel, 1766) Pl. 2, fig. 11; male genitalia Pl. 5, fig. 29; female genitalia Pl. 9, fig. 45. Phalaena umbra Hufnagel, 1766, Berl. Mag. 3: 294, Taf. 51: 6 (TL.: Germany: Berlin). Synonymy: Noctua rutilago [Denis & Schifferm��ller], 1775, Noctua marginata Fabricius, 1775, Phalaena (Noctua) conspicua Borkhausen, 1792, Phalaena (Noctua) umbrago Esper, [1796], Noctua marginago Haworth, 1809, Heliothis cilisca Guenee, 1852, Hydroecia tibetana Moore, 1878, Chariclea vexilliger Christoph, 1893. References: Christoph 1877 (Chariclea umbra); Hampson 1910; Hacker 1990; Ebert & Hacker 2002 (Pyrrhia umbra). Distribution: Transpalaearctic. Europe, Caucasus, Transcaucasia, Kazakhstan, Central Asia, south Siberia, Far East, China (including Tibet), north India, Nepal, Australia (introduced). ��� In Iran (Pl. 11, fig. 59) occurs in provinces West Azerbaijan, Guilan, Mazandaran, Golestan and Tehran. Bionomics: Bivoltine. Moths flying from May to October. The species inhabits steppe habitats on lowmedium elevations from 0 to 1800 m. Larvae are polyphagous, feed on 33 species of herbaceous plants, shrubs and trees of 16 botanical families, prefer Fabaceae and Scrophulariaceae. Material examined: 61 specimens from provinces West Azerbaijan, Guilan, Mazandaran, Golestan and Tehran, collected between 14.V to 29.X on elevations from 0 to 1800 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 14-15, DOI: 10.5281/zenodo.181966

Published

2008

23. Aedophron venosa Christoph 1887

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Aedophron venosa, Animalia, Biodiversity, Taxonomy, Aedophron

Abstract

Aedophron venosa Christoph, 1887 Pl. 2, fig. 13; male genitalia Pl. 6, fig. 31; female genitalia Pl. 9, fig. 47. Aedophron venosa Christoph, 1887, Stett. Ent. Z. 48: 165 (TL.: [Turkmenistan]: Ashkhabad). References: Wiltshire 1951 (Aedophron venosa); Kalali 1976 (Aedophron phlebophora ��� misidentification). Bionomics: Univoltine. Moths flying from May to July. The species inhabits dry steppe biotopes on medium and moderate altitudes (1150 ��� 2950 m). Larval host-plants are unknown. Distribution: Irano-Turkestanian. Central Asia (Turkmenistan). ��� In Iran (Pl. 11, fig. 61) occurs in provinces Golestan, Khorasan and Semnan. Material examined: Golestan: Sulgerd, Park-e-Melli Golestan, 1150 m, 16-18.VII. 1975, leg. Pazuki A. Khorasan: Aladagh, Khosravieh, 1600 m, 16.VI. 1974, leg. Rajabi & Pazuki; Allahakbar Mount., Kopeh Dagh Mount., 2950 m, 16.VI. 1974, leg. Rajabi & Pazuki; Almeh, Park-e-Melli-Golestan, 1590 m, 17- 25.V. 1988, leg. Pazuki A.; Almeh, Park-e-Melli-Golestan, 1600 m, 26-29.V. 1986, leg. Pazuki A.; Assadly, Bojnurd, 30 km S, 1970 m, 17.VI. 1977, leg. Pazuki & Abai, Eizman, Bojnurd, 17.V. 2005, leg. Falsafi & Nematian; Yakhtikalan, Park-e-Melli Golestan, 1650 m, 02.VI. 1986, leg. Pazuki A. Semnan: Kalate-Amirieh, Shahrud, 1550 m, 30.V. 1982, leg. Hashemi; Kamare Cheheldokhtar, Shahrud, 1700 m, 03.VI. 1982, leg. Hashemi. PLATE 4. Figures 22 ���25. 22, Heliothis nubigera, slide 443 (genitalia), Hormozgan, and slide 221 (aedeagus), Tehran; 23, H. peltigera, slide 60 (genitalia), Tehran (Karadj), and slide 446 (aedeagus), Semnan; 24, H. incarnata, slide 449, Fars; 25, Helicoverpa armigera, slide 258, Esfahan (Karkas Kuh). PLATE 5. Figures 26 ���29. 26, Schinia scutosa, slide 461, Golestan; 27, Periphanes delphinii, slide 344, Golestan (Gorgan); 28, P. victorina, slide 341 (genitalia), Tehran (Damavand), and slide 462 (aedeagus), Tehran (Damavand); 29, Pyrrhia umbra, slide 456, Mazandaran (Tonekabon). PLATE 6. Figures 30 ���33. 30, Aedophron phlebophora, slide 339, Fars (Didegan); 31, A. venosa, slide 454, Golestan; 32, A. rhodites, slide 277, Kerman; 33, A. sumorita, slide 279, Fars. PLATE 7. Figures 34 ���36. 34, Heliocheilus confertissima, slide 451 (genitalia), and slide 343 (aedeagus), Baluchestan; 35, Masalia albida, slide 342, Kerman; 36, M. perstriata fuscostriata, slide 345, Hormozgan. PLATE 8. Figures 37 ���42. 37, Heliothis viriplaca, slide 274, Fars; 38, H. maritima, slide 442, Tehran; 39, H. peltigera, slide 445, Ardebil; 40, H. incarnata, slide 448, Fars; 41, Helicoverpa armigera, slide 447, Hormozgan; 42, Schinia scutosa, slide 460, Golestan. PLATE 9. Figures 43 ���48. 43, Periphanes delphinii, slide 459, Fars; 44, P. victorina, slide 469, Tehran (Damavand); 45, Pyrrhia umbra, slide 457, Mazandaran; 46, Aedophron phlebophora, slide 452, Kordestan; 47, A. venosa, Golestan, slide 455; 48, Masalia philbyi, Hormozgan, SMNK., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 15-21, DOI: 10.5281/zenodo.181966

Published

2008

24. Schinia Hubner 1818

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Animalia, Biodiversity, Schinia, Taxonomy

Abstract

Genus Schinia H��bner, 1818 Type species: Noctua scutosa [Denis & Schifferm��ller], 1775 by original designation Synonymy: Euclidia H��bner, 1808; Melicleptria H��bner, [1823]; Anthoecia Boisduval, 1840; Alaria [Duncan & Westwood], 1841; Trypana Guen��e, 1841; Oria Guen��e, 1852; Rhodophora Guen��e, 1852; Tamila Guen��e, 1852; Euleucyptera Grote, 1865; Lygranthoecia Grote & Robinson, 1873; Tricopis Grote, 1874; Adonisea Grote, 1875; Heliophana Grote, 1875; Oxylos Grote, 1875; Pippona Harvey, 1875; Porrima Grote, 1877; Rhododipsa Grote, 1877; Bessula Grote, 1881; Dasyspoudaea Smith, 1882; Pseudotamila Smith, 1883; Canidia Grote, 1890; Eupanychis Grote, 1890; Trichosellus Grote, 1890; Thyreion Smith, 1891; Incita Grote, 1895; Palada Smith, 1900; Chlorocleptria Hampson, 1903; Heliothis Hampson, 1903; Tricraterifrontia Berio, 1940; Trilenca Neave, 1940; Uollega Berio, 1945; Protoschinia Hardwick, 1970; Purpurschinia Beck, 1996., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 12, DOI: 10.5281/zenodo.181966

Published

2008

25. Heliocheilus Grote 1865

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Heliocheilus, Insecta, Arthropoda, Noctuidae, Animalia, Biodiversity, Taxonomy

Abstract

Genus Heliocheilus Grote, 1865 Type species: Heliocheilus paradoxus Grote, 1865 Synonymy: Raghuva Moore, 1881, Canthylidia Butler, 1886, Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 22, DOI: 10.5281/zenodo.181966

Published

2008

26. Heliothis Ochsenheimer 1816

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Heliothis, Noctuidae, Animalia, Biodiversity, Taxonomy

Abstract

Genus Heliothis Ochsenheimer, 1816 Type species: Phalaena dipsacea Linnaeus, 1767 (Syst. Nat. (Ed. 12) 1: 856) by subsequent designation by Samouelle, 1819: 252. Synonymy: Heliothisa Meigen, 1832; Heliotis Sodoffsky, 1837; Chloridea Duncan & [Westwood], 1841; Asphila Guen��e, 1852; Heliocheilus Grote, 1865; Dorika Moore, 1881; Rhodosea Grote, 1883; Disocnemis Grote, 1883; Dysocnemis Grote, 1890; Neocleptria Hampson, 1903; Nubiothis Beck, 1996; Peltothis Beck, 1996. Heliothis viriplaca (Hufnagel, 1766) Pl. 1, fig. 1; male genitalia Pl. 3, fig. 20; female genitalia Pl. 8, fig. 37. Phalaena viriplaca Hufnagel, 1766, Berlinisches Mag. 3 (4): 406 (TL.: [Germany]: Berlin). Synonymy: Phalaena (Noctua) dipsacea Linnaeus, 1767 References: Christoph 1873, 1877 (Heliothis dipsaceus); Schwingenschuss 1938; Barou 1967 (Chloridea dipsacea); Kalali 1976; Modarres Awal 1994, 1997 (Chloridea viriplaca); Zahedi 1983 (Heliothis dipsacea); Hacker & Kautt 1999); Hacker & Meineke 2001; Hacker 2001; Ebert & Hacker 2002 (Heliothis viriplaca). Bionomics: Bivoltine, probably multivoltine (Hacker 2001), univoltine in Israel (Kravchenko et al. 2005). Moth in flight from March to September. The early stages have been described by Hampson (1903), Spuler (1908), Forster & Wohlfahrt (1971), Bretherton et al. (1979) and Skou (1991). The species flies by day as well as at night. The species inhabits steppe-like habitas, usually at medium altitude up to 2900 m. Larvae are polyphagous, feed on 70 species of herbaceous plants of 22 botanical families (prefer Caryophyllaceae, Fabaceae, Lamiaceae and Asteraceae). Distribution: West Palaearctic. Europe, North Africa, Near East, Caucasus, Transcaucasia, Central Asia, Kazakhstan, south Siberia (including Transbaikalia), China and north India. ��� In Iran (Pl. 10, fig. 49) distributed almost everywhere except eastern and some south-eastern provinces. Material examined: 351 specimens from provinces West Azerbaijan, East Azerbaijan, Ardebil, Guilan, Mazandaran, Golestan, Khorasan, Semnan, Tehran, Qazvin, Qom, Markazi, Zanjan, Kermanshah, Kordestan, Esfahan, Kohkiluyeh va Boyer-Ahmad, Chaharmahal va Bakhtiari, Lorestan, Fars and Kerman, collected between 10.III to 22.IX on elevations from 0 to 2900 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 6, DOI: 10.5281/zenodo.181966

Published

2008

27. Heliothis maritima Graslin 1855

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Heliothis, Noctuidae, Heliothis maritima, Animalia, Biodiversity, Taxonomy

Abstract

Heliothis maritima Graslin, 1855 Pl. 1, fig. 2; male genitalia Pl. 3, fig. 31; female genitalia Pl. 8, fig. 38. Heliothis maritima Graslin, 1855, Annls. Soc. Entomol. France, Serie 3, 3: 65-74 (TL.: France: Vendee). Synonymy: Heliothis adaucta Butler, 1878; Chloridea maritima subsp. angarensis Draudt, 1938; Chloridea maritima subsp. bulgarica Draudt, 1938; Chloridea maritima subsp. centralasiae Draudt, 1938; Heliothis maritima subsp. septentrionalis Hoffmeyer, 1939; Chloridea maritima subsp. hungarica Kovacs, 1950; Chloridea maritima subsp. warneckei Boursin, 1963. References: Modarres Awal 1999 (Heliothis maritima). Bionomics: Bivoltine. Moths flying in two overlapping generations from June to September. Inhabits steppe habitats on elevation 830-2040 m. Larvae are polyphagous, feed on 28 species of herbaceous plants and shrubs of 13 botanical families, prefer Fabaceae, Asteraceae, Chenopodiaceae, Ericaceae and Cucurbitaceae. Distribution: Transpalaearctic. Europe, Near East, Caucasus, Transcaucasia, Central Asia, Kazakhstan, south Siberia, Far East, Korea, Japan, China and north India. ��� In Iran it is known from Khorasan, Tehran and Lorestan (Pl. 10, fig. 50). Material examined: Khorasan: Gonabad, 36 km N, 830 m., 7.VI. 1977 (Safavi, Pazuki & Abai). Tehran: Damavand, 1910 m., 7-25.VIII. 1986 (Rajabi); Evin, Tehran, 1600 m., 28.VI. 1974; 13.VII. 1974: 2.VIII. 1974 (Light trap); Malard, Karaj, 20.IV. 1971 (Sabzevari); Vanak, 15 km N Tehran, 1600 m., 1- 10.VII. 1962 (Vartian E.). Lorestan: Kamanda, N, Oshtoran Kuh, 2040 m., 22-24.VII. 1971 (Pazuki & Borumand). Schahrud, 1887, leg. O. Herz, 2 females (ZISP)., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 6-7, DOI: 10.5281/zenodo.181966

Published

2008

28. Aedophron sumorita Ronkay 2002

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Animalia, Aedophron sumorita, Biodiversity, Taxonomy, Aedophron

Abstract

Aedophron sumorita Ronkay, 2002 Bionomics: Univoltine. Moths flying from June to July. The biotope was described by Ronkay (2002) as a relatively high part of a long, deep rocky valley, near a small stream bordered by sparse stands of willow. The species inhabits medium and high elevations from 1650 to 2700 m. Larval host-plants are unknown. Distribution: Iranian. In Iran (Pl. 11, fig. 63) occurs in provinces West Azerbaijan, Kordestan, Hamedan, Zanjan, Lorestan, Esfahan and Fars. Material examined: West Azerbaijan: Ghasemlu valley, 1650 m, 19.VII. 2005, leg. Zahiri & Khiaban. Zanjan: Baba Sorkheh, 10 km W Bijar, 2180 m, 29.VI. 1975, leg. Pazuki; Zanjan, 50 km SW Zanjan-Bijar, 1700 m, 28.VI. 1975, leg. Pazuki. Kordestan: Stra��e Zanjan-Bijar, 53 km S Zanjan, 1700 m, 28-29.VI. 1975; leg. Ebert & Falkner; Ariz, 27 km W Sanandaj, 2200 m., 10.VII. 1975, leg. Ebert & Falkner. Hamadan: Khakadan, 25 km W, Hamedan, 2200 m, 21.VI. 2000, leg. Fabian (paratype, coll. L. Sz��cs��nyi, Budapest). Lorestan: Dorud, 06- 17.VI. 1978, leg. Parvin. Esfahan: Esfahan, Park-e-Ghamishlu, 2000 m, 16-17.VI. 1993, leg. Mirzayans & Badii; Shibak, 10 km S, Esfahan, 2700 m, 10.VI. 2000, leg. Fabian. (holotype, HMNH). Fars: Kamfiruz (Kam-Firuz), 1900 m, 26.VI. 1975, leg. Abai M., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 22, DOI: 10.5281/zenodo.181966

Published

2008

29. Periphanes

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Periphanes, Insecta, Arthropoda, Noctuidae, Biodiversity, Plantae, Taxonomy

Abstract

Genus Periphanes H��BNER, [1821] Type species: Phalaena Noctua delphinii Linnaeus, 1758 Synonymy: Chariclea Curtis, 1825, Chariclea Stephens, 1829, Philareta Moore, 1881, Calocharia Beck, 1996, Helivictoria Beck, 1996., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 13, DOI: 10.5281/zenodo.181966

Published

2008

30. Masalia perstriata subsp. fuscostriata Brandt 1941

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Masalia, Noctuidae, Masalia perstriata, Animalia, Biodiversity, Masalia perstriata fuscostriata (brandt, 1941), Taxonomy

Abstract

Masalia perstriata fuscostriata (Brandt, 1941) Pl. 3, fig. 19; male genitalia Pl. 7, fig. 36. Timora fuscostriata Brandt, 1941, Mitt. M��nch. Ent. Ges. 31: 854, fig. 43 (TL.: Iran: Tahte Malek). References: Ebert & Hacker 2002 (Masalia perstriata fuscostriata). Bionomics: Univoltine. Moths flying from February to April. The species inhabits deserts and semideserts on low elevations (550-850 m). Larval host-plants are unknown. Distribution: Irano-Sindian. Pakistan, India. ��� In Iran (Pl. 12, fig. 67) occurs in provinces Hormozgan and Sistan va Baluchestan. PLATE 12. Figures 65 ���71. 65, Distribution of Masalia albida in Iran; 66, Distribution of M. philbyi in Iran; 67, Distribution of M. perstriata fuscostriata in Iran; 68, Provinces of Iran (1, West Azerbaijan; 2, East Azerbaijan; 3, Ardebil; 4, Guilan; 5, Mazandaran; 6, Golestan; 7, Khorasan [Khorasan has recently divided by 3 provinces: 7 (1): North Knorassan; 7 (2): Razavi Khorasan; 7 (3): South Khorasan]; 8, Semnan; 9, Tehran; 10, Qazvin; 11, Zanjan; 12, Kordestan; 13, Kermanshah; 14, Hamedan; 15, Markazi; 16, Qom; 17, Esfehan; 18, Yazd; 19, Lorestan; 20, Ilam; 21, Khuzestan; 22, Chahar Mahal va Bakhtiari; 23, Kohkiluye va Boyer-Ahmad; 24, Fars; 25, Bushehr; 26, Kerman; 27, Hormozgan; 28, Sistan va Balouchestan); 69, Climatic zones of Iran; 70, Geographical regions of Iran (1, borders of regions; 2, borders of districts), 1, North Iranian mountain region (1 a, North-Western Iran; 1 b, South Caspian mountains; 1 c, Turkmen-Khorasan mountains); 2, Caspian wet forest region; 3, South-West Iranian mountain region (3 a, Poshte-Kuh or Kabir-Kuh mountains; 3 b, Zagros mountains; 3 c, Karun Plain); 4, Central Iranian mountain region (4 a, Ghohrud mountains; 4 b, Kuhbenan mountains; 4 c, Gavkhan hollow); 5, South Iranian mountain region (5 a, mountains of Fars; 5 b, Kuh-e-Furgun mountains; 5 c, eastern part of the South Iranian mountains); 6, East Iranian mountain region (6 a, Dzham mountains; 6 b, Kayen mountains; 6 c, Pelengan mountains; 6 d, Serhed tableland); 7, high plains of the Iranian highland (7 a, Dasht-e- Kavir desert; 7 b, Dasht-e-Lut desert; 7 c, Sistan hollow, 7 d, Namakzar hollow); 71, Division of the Iranian territory into studied sites, abbreviations as in Table 1. TABLE 1. The two-way table of presence-absence data for Heliothinae species and areas in Iran. Geographical territories are abbreviated as: NNW���north part of the North-West Iran, the Araxes River basin, Talysh Mountains and Arasbaran Forest; NW���North-West Iran, excluding the Araxes River basin, NW of Zagros Mountains including West Azerbaijan, Kordestan and North of Kermanshah; C���the Caspian wet forest region; G ��� Golestan Forest; E���southern macroslope of the Alburs (=Elburs) Mountains including North of Tehran and Qazvin; NE���the Turkmen-Khorasan Mountains including Binalud and Kopet Dagh Mountains; TS���the Torkman-Sahra Transcaspian plain and other plains North-East Iran; Z���South-West Iran Mountain region, mainly Zagros Mountains including S Kermanshah, Lorestan, North of Khuzestan, Chaharmahal va Bakhtiari, Kohkiluye Boyer-Ahmad, Ilam, Eat of Esfahan, Markazi, Hamedan, excluding the part in Fars; ZF���Zagros Mts. in Fars; NZK���North Iran provinces Zanjan and Qazvin; NTQ��� North Iranian high plains, mainly Dasht-e-Kavir within the provinces of Tehran, Qom, Semnan, North of Esfahan; Gh���the Central Iranian mountains, mainly Ghohrud Mountains; SKh���the mountains of Southern Khorasan; NB���the mountains of Northern Baluchestan; Hmt ��� the mountains of Hormozgan including Genu Mountains; Bmt ��� the mountains of Southern Baluchestan; KzB ��� the plains of South Khuzestan and the coast of Bushehr; Oc ��� the coast of the Strait of Persian Gulf and the Oman Sea; I ��� the islands of the Strait of Persian Gulf. Material examined: Unknown place: Keine Angaben zum Fundort, Quli Kush, leg. Brandt (paratype, SMNK). Hormozgan: Geno M., Issin, 300 m, 11.III. 1991, leg. Mirzayans & Badii (HMIM); Stra��e nach Sirjan, km 107, Bandar-e-Abbas, 850 m, 07.III. 1973, leg. Ebert (SMNK); Kuh-e-Geno, 550-650 m, 01- 05.III. 1973, leg. Ebert (SMNK); Bander-Abbas, 40 km n��rdl, 04.IV. 1974, leg. Vartian (NHMW); Bander- Abbas, 40 km n��rdl, 31.III. 1972, leg. Exped. Mus. Vind. (NHMW); Bander-Abbas, 75 km n��rdl., 03.IV. 1974, leg. Vartian (NHMW). Sistan va Balouchestan: Bandar-e-Chabahar, 15.II. 1938, leg. Brandt (paratype, NHMW); Bandar-e-Chabahar, 15.II. 1938, leg. Brandt (NHMW)., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 27-31, DOI: 10.5281/zenodo.181966

Published

2008

31. Aedophron Lederer 1857

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Animalia, Biodiversity, Taxonomy, Aedophron

Abstract

Genus Aedophron Lederer, 1857 Type species: Heliothis rhodites Eversmann, 1851, Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 15, DOI: 10.5281/zenodo.181966

Published

2008

32. Helicoverpa armigera

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Helicoverpa armigera, Insecta, Arthropoda, Noctuidae, Animalia, Helicoverpa, Biodiversity, Taxonomy

Abstract

Helicoverpa armigera (H��bner, [1808]) Pl. 1, fig. 6; male genitalia Pl. 4, fig. 25; female genitalia Pl. 8, fig. 41. Noctua armigera H��bner, [1808], Samml. Eur. Schmett. 4: pl. 79, fig. 370 (TL.: [Europe]). Synonymy: Noctua obsoleta sensu auct., nec Fabricius, 1793; Heliothis obsoleta Fabricius, 1775; Noctua barbara Fabricius, 1794; Heliothis pulverosa Walker, 1857; Heliothis conferta Walker, 1857; Heliothis uniformis Wallengren, 1860; Heliothis armigera fusca Cockerell, 1889; Heliothis guidellii Constantini, 1922; Helicoverpa armigera subsp. commoni Hardwick, 1965; Heliothis rama Bhattacherjee & Gupta, 1972. References: Bienert 1870; Lederer 1871 (Heliothis Armigera); Christoph 1877 (Heliothis armiger); Barou 1967 (Chloridea obsoleta); Kalali 1976 (Chloridea armigera); Modarres Awal 1994, 1997 (Heliothis (= Chloridea) obsoleta); Modarres Awal 1999 (Helicoverpa (= Heliothis) armigera); Hacker & Kautt 1999; Hacker & Meineke 2001; Hacker 2001; Ebert & Hacker 2002 (Helicoverpa armigera). Bionomics: Multivoltine, continuously brooded throughout the year. Occurs in various habitats from sea level to 3300m. Moths flying from February to December. Larvae have been recorded from a wide range of herbaceous plants, shrubs and trees from 38 botanical families. The crops attacked by the larvae most often in Near and Middle East are cotton and tomato. Taxonomic notes: Hardwick (1965) recognised three subspecies. The typical race flies throughout most of the range, ssp. conferta Walker in Australia and the Pacific, and ssp. commoni Hardwick on southeast China (Holloway 1989). Distribution: Cosmopolitan (Palaeotropic-Palaeosubtropical). Europe, Africa (including Madagascar and R��union), Near East, Caucasus, Transcaucasia, Kazakhstan, Central Asia, India, South-East Asia, Australia, Oceania, New Zealand. ��� In Iran (Pl. 10, fig. 54) occurs everywhere except the eastern provinces. Material examined: 648 specimens from provinces West Azerbaijan, East Azerbaijan, Ardebil, Mazandaran, Guilan, Golestan, Khorasan, Semnan, Tehran, Qom, Markazi, Qazvin, Hamedan, Zanjan, Kordestan, Kermanshah, Ilam, Lorestan, Esfahan, Charmahal va Bakhtiari, Kohkiluyeh va Boyer-Ahmad, Khuzestan, Fars, Yazd, Kerman, Bushehr, Hormozgan and Sistan va Baluchestan, collected between 16.II to 21.XII on elevations from 0 to 3300 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 12, DOI: 10.5281/zenodo.181966

Published

2008

33. Heliothis incarnata Freyer 1838

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Heliothis, Noctuidae, Animalia, Biodiversity, Heliothis incarnata, Taxonomy

Abstract

Heliothis incarnata Freyer, 1838 Pl. 1, fig. 5; male genitalia Pl. 4, fig. 24; female genitalia Pl. 8, fig. 40. Heliothis incarnata Freyer, 1838, Neuere Beitr. Schmetterlingskde 3: 91, Tab. 256, Fig. 4 (TL.: [Turkey]: [Istanbul]). Synonymy: Heliothis boisduvalii Boisduval, 1840; Rhodocleptria incarnata f. bernaldezina Fernandez, 1951. References: Modarres Awal 1999 (Rhodocleptria incarnata), Gutleb & Wiesser 2001 (Chazaria incarnata), Hacker 2001; Ebert & Hacker 2002 (Heliothis incarnata). Systematic notes: The forewing upperside varies from reddish-brown, through sandy-brown, to pale yellowgreen, with all possible intergrades (Hacker 2001). Bionomics: Bivoltine (but univoltine according to Hacker 2001). Moths flying from February to October. The species inhabits dry rocky and chalky steppes and semi-deserts in the plains on elevation up to 2600 m. The early stages have been described by Hampson (1903) and Spuler (1908). Larvae feed on Gypsophila juzepczukii, Silene vespertina, S. viscosa, S. volgensis. Distribution: West Palaearctic. Central and South Europe, North Africa, Near East, Caucasus, Transcaucasia, Central Asia, Kazakhstan. ��� In Iran (Pl. 10, fig. 53) occurs in northern, western and southern provinces. Material examined: 207 specimens from provinces West Azerbaijan, East Azerbaijan, Golestan, Khorasan, Tehran, Qom, Hamedan, Zanjan, Lorestan, Khuzestan, Fars, Kerman, Bushehr, Hormozgan and Sistan va Baluchestan, collected between 28.II to 2.X on elevations from 30 to 2600 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 8, DOI: 10.5281/zenodo.181966

Published

2008

34. Periphanes victorina Sodoffsky 1849

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Periphanes, Insecta, Arthropoda, Noctuidae, Periphanes victorina, Biodiversity, Plantae, Taxonomy

Abstract

Periphanes victorina (Sodoffsky, 1849) Pl. 2, fig. 10; male genitalia Pl. 5, fig. 28; female genitalia Pl. 9, fig. 44. Heliothis victorina Sodoffsky, 1849, Stett. Ent. Ztg. 10: 130 (TL.: [Caucasus]). Synonymy: Chariclea prazanoffskyi Guen��e, 1852. References: Schwingenschuss 1938; Modarres Awal 1994, 1997 (Pyrrhia victorina). Bionomics: Bivoltine. Moths in flight from March to August. The species inhabits steppe habitats on lowmedium elevations from 100 to 1900 m. Larvae feed on Dictamnus albus and Salvia. Distribution: Mediterranean-Asiatic. South Europe, Caucasus, Transcaucasia. ��� In Iran (Pl. 11, fig. 58) occurs in provinces East Azerbaijan, Mazandaran and Tehran. Material examined: Azerbaijan: Khalatpushan, Tabriz, 26.III. 1954. Mazandaran: Amol, 23.VII. 1969, leg. Vartian E. (NHMW). Tehran: Damavand, 1900 m, 08- 25.VIII. 1976, leg. Rajabi; Damavand, 1900 m, 05- 11.VI. 1976, leg. Rajabi; Damavand, 1900, 21 - 27.VI. 1976, leg. Rajabi: Damavand, 1900 m, 28.V. 1976, leg. Rajabi; Damavand, 1900 m, 28.V-04.VI. 1976, leg. Rajabi; Absard, Damavand, 1900 m, 3-7.VII. 1978, leg. Pazuki & Sabzevari., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 14, DOI: 10.5281/zenodo.181966

Published

2008

35. Masalia philbyi Brandt 1941

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Masalia, Noctuidae, Animalia, Biodiversity, Masalia philbyi, Taxonomy

Abstract

Masalia philbyi (Brandt, 1941) Pl. 3, fig. 18; female genitalia Pl. 9, fig. 48. Timora philbyi Brandt, 1941, Mitt. M��nch. Ent. Ges. 31: 853, fig. 44 (TL.: Iran: Tahte Malek). Synonymy: Timora philbyi nuristana Boursin, 1960, Timora philbyi arabica Boursin, 1960. References: Ebert & Hacker 2002 (Masalia philbyi). Bionomics: Univoltine. Moths flying from March to April. The species inhabits deserts and semideserts on low elevations (30-850 m). Larval host-plants are unknown. Distribution: Iranian-Arabian. Saudi Arabia. ��� In Iran (Pl. 12, fig. 66) occurs in province Hormozgan. Material examined: Unknown place: Keine Angaben zum Fundort, Quli Kush, leg. Brandt (paratype, SMNK). Hormozgan: Stra��e nach Sirjan, km 107, Bandar-e-Abbas, 850 m, 07.III. 1983, leg. Ebert (SMNK); Kuh-e-Geno, 550-650 m, 01-05.III. 1973, leg. Ebert; Minab, 10 km N, 30 m, 03.III. 1973, leg. Ebert (SMNK); Bander-Abbas, 75 km n��rdl. 03.IV. 1974, leg. Vartian (NHMW); Bander-Abbas, 40 km n��rdl, 04.IV. 1974, leg. Vartian (NHMW); Rudan Sarzeh, 21 km W, 200 m, 3-4.III. 1978, leg. Pazuki (HMIM)., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 27, DOI: 10.5281/zenodo.181966

Published

2008

36. Periphanes delphinii Linnaeus 1758

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Periphanes, Insecta, Periphanes delphinii, Arthropoda, Noctuidae, Biodiversity, Plantae, Taxonomy

Abstract

Periphanes delphinii (Linnaeus, 1758) Pl. 1, fig. 8; male genitalia Pl. 5, fig. 27; female genitalia Pl. 9, fig. 43. Phalaena (Noctua) delphinii Linnaeus, 1758, Syst. Nat. Ed. 10, 1: 518 (TL.: [Europe]). Synonymy: Chariclea darollesi Oberth��r, 1876 References: Bienert 1870; Barou 1967 (Chariclea Delphinii); Kalali 1976; Modarres Awal 1994, 1997 (Periphanes delphinii darallesi); Hacker 1990 (Periphanes delphinii delphinii); Hacker 2001; Ebert & Hacker 2002 (Periphanes delphinii). Systematic notes: Represented in Iran by subspecies tekke L.Ronkay, Varga & Hreblay, 1998. Bionomics: Bivoltine; univoltine according to Hacker (2001) and Kravchenko et al. (2005). Flight period: April to August The species inhabits vegetation-rich steppe habitats on elevations from sea level up to 2500 m. The early stages have been described by Hampson (1903), Spuler (1908), Forster & Wohlfahrt (1971) and Bretherton et al. (1979). Larvae feed on flowers and seeds of species of Consolida ajacis and Aconitum napellus. Distribution: Mediterranean-Asiatic. Central and South Europe, North Africa, Near East, Caucasus, Transcaucasia, Kazakhstan, Central Asia. ��� In Iran (Pl. 10, fig. 56) occurs in provinces West Azerbaijan, East Azerbaijan, Ardebil, Mazandaran, Golestan, Tehran, Hamedan and Fars. Material examined: 22 specimens from provinces West Azerbaijan, East Azerbaijan, Ardebil, Mazandaran, Golestan, Tehran, Hamedan and Fars, collected between 12.IV to 20.VIII on elevations from 0 to 2500 m, Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 13, DOI: 10.5281/zenodo.181966

Published

2008

37. Heliocheilus confertissima Walker 1865

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Heliocheilus, Insecta, Arthropoda, Noctuidae, Heliocheilus confertissima, Animalia, Biodiversity, Taxonomy

Abstract

Heliocheilus confertissima (Walker, 1865) Pl. 2, fig. 16; male genitalia Pl. 7, fig. 34. Leucania confertissima Walker, 1865, List. Spec. Lep. Ins. Coll. Br. Mus. 32: 625 (TL.: [India]: South Indostan). Synonymy: Heliocheilus hyalosticta Hampson, 1894, Raghuva perdentata Hampson, 1903, Heliocheilus mekrana Brandt, 1941, Heliocheilus designata Brandt, 1941, Raghuva ennedica Herbulot & Viette, 1952. References: Brandt 1941 (Heliocheilus mekrana, Heliocheilus designata); Ebert & Hacker 2002 (Heliocheilus confertissima). Bionomics: Univoltine. Moths flying from February to April. The species inhabits deserts and semi-deserts on lowlands and medium elevations (200 ��� 1100 m). Larval host-plants are unknown. Distribution: Afrotropical-Asiatic. East Africa, Iran, Turkmenistan, Pakistan, India, Myanmar. ��� In Iran (Pl. 11, fig. 64) occurs in provinces Qom, Hormozgan and Sistan va Baluchestan. Material examined: Qom: Qom, 20 km S dl., 1100 m, 28.IV. 1975, leg. Thomas (SMNK). Hormozgan: Sarkhoun, 08.III. 1972, leg. Mirzayans & Borumand; Sirik, 30 m, 19.III. 1991, leg. Mirzayans & Badii; Kuh-e- Geno, 550-650 m, 01-05.III. 1973, leg. Ebert; Shirin Rud, 45 km NE, Bandar-e-Abbas, 20 m, 02.III. 1973, leg. Ebert (SMNK); Stra��e nach Sirjan, km 107, Bandar-e-Abbas, 850 m, 07.III. 1973, leg. Ebert (SMNK); Bandar-Abbas (D��den), 17 km ��stl., 15.IV. 1972, leg. Exped. Mus. Vind. (NHMW); Bandar-Abbas (D��den), 17 km ��stl., 05.IV. 1974, leg. Vartian (NHMW). Sistan va Balouchestan: Bandar-e-Chabahar, 1938, leg. Brandt; Bandar-e-Chabahar, 21.II. 1938, leg. Brandt (paratype, SMNK). Sharistan: Kuche Makran, 6 [19].03.1901, leg. Zarudnyj (ZISP)., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 22-23, DOI: 10.5281/zenodo.181966

Published

2008

38. Masalia albida Hampson 1905

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Masalia, Noctuidae, Animalia, Masalia albida, Biodiversity, Taxonomy

Abstract

Masalia albida (Hampson, 1905) Pl. 3, fig. 17; male genitalia Pl. 7, fig. 35. Timora albida Hampson, 1905, Ann. Mag. Nat. Hist. (Ser. 7), 15: 450 (TL.: Algeria: Hammam-es-Salahin). Synonymy: Lecerfia chitinipyga Dumont, 1920. References: Hacker 2001 (Masalia albida). Bionomics: Univoltine. Moths flying from April to May. The species inhabits deserts and semideserts on medium elevations (700-1650 m). Larval host-plants are unknown. Distribution: Saharo-Sindian. North and East Africa, Cyprus, Near East. ��� In Iran (Pl. 12, fig. 65) occurs in provinces Esfahan, Kerman and Hormozgan. PLATE 10. Figures 49���56. Distributional maps; 49, Heliothis viriplaca; 50, H. maritima; 51, H. nubigera; 52, H. peltigera; 53, H. incarnata, Baluchestan; 54, Helicoverpa armigera; 55, Schinia scutosa; 56, Periphanes delphinii. PLATE 11. Figures 57���64. Distributional maps; 57, Periphanes treitschkei; 58, P. victorina; 59, Pyrrhia umbra; 60, Aedophron phlebophora; 61, A. venosa; 62, A. rhodites; 63, A. sumorita; 64, Heliocheilus confertissima. Material examined: Esfahan: Kashan, 25.V. 1973, leg. Vartian (NHMW). Kerman: Rameshk Baru, 6 km E, Kahnuj, Jiroft, 700 m, 14.III. 1978, leg. Pazuki (HMIM); Kerman, 100 km NW, 1650 m, 09.V. 1965, leg. Kasy & Vartian (NHMW). Hormozgan: Bander-Abbas, 10 km nord��stl, 02.IV. 1974, leg. Vartian (NHMW). Zahedan, 15.V. 1955, at light, leg. Shteinberg (ZISP)., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 23-27, DOI: 10.5281/zenodo.181966

Published

2008

39. Helicoverpa Hardwick 1965

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Animalia, Helicoverpa, Biodiversity, Taxonomy

Abstract

Genus Helicoverpa Hardwick, 1965 Type species: Noctua armigera H��bner by original designation. PLATE 1. Figures 1 ���8. 1, Heliothis viriplaca, Tehran; 2, H. maritima, Lorestan; 3, H. nubigera, Kerman; 4, H. peltigera, Esfahan; 5, H. incarnata, Baluchestan; 6, Helicoverpa armigera, Guilan; 7, Schinia scutosa, Golestan; 8, Periphanes delphinii, Fars. PLATE 2. Figures 9 ���16. 9, Periphanes treitschkei, Azarbayjan; 10, P. victorina, Tehran (Damavand); 11, Pyrrhia umbra, Guilan; 12, Aedophron phlebophora, Kordestan; 13, A. venosa, Khorasan; 14, A. rhodites, Kordestan; 15, A. sumorita, Zandjan; 16, Heliocheilus confertissima, Hormozgan. PLATE 3. Figures 17 ���21. 17, Masalia albida, Kerman; 18, M. philbyi, Hormozgan; 19, M. perstriata fuscostriata, Hormozgan; 20, Heliothis viriplaca, slide 440, Kermanshah; 21, H. maritima, slide 441, Lorestan., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 8-11, DOI: 10.5281/zenodo.181966

Published

2008

40. Periphanes treitschkei Frivaldsky 1835

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Periphanes, Insecta, Arthropoda, Noctuidae, Periphanes treitschkei, Biodiversity, Plantae, Taxonomy

Abstract

Periphanes treitschkei (Frivaldsky, 1835) Pl. 2, fig. 9. Heliothis treitschkei Frivaldsky, 1835, Tarsas Tud. Akad. Evk��nys, 2: 273, Taf. 7: 8 (TL.: [Bulgaria]: [Slivno]). Synonymy: Heliothis taurica Herrich-Sch��ffer, 1851. References: Hacker & Kautt 1999; Ebert & Hacker 2002 (Periphanes treitschkei); Hacker 2001 (Pyrrhia treitschkei). Bionomics: Univoltine. Flight period: June. The species inhabits steppe-like habitats at medium altitude (1050 ��� 2400 m). The early stages have been described by Spuler (1908). The larvae feed on species of Melissa and Scutellaria peregrina. Distribution: Mediterranean-Asiatic. South Europe, Near East, Transcaucasia. ��� In Iran (Pl. 11, fig. 57) occurs in provinces West Azerbaijan and Kohkiluyeh va Boyer-Ahmad. Material examined: West Azerbaijan: Maku, 15 km SE, 1050 m, 03.VI. 1975, leg. Amsel (SMNK); Bazargan, 1450 m, 05.VI. 1975, leg. Abai. Kohkiluyeh va Boyerahmad: Sisakht, 2 km E, Yassuj, 2400 m, 07.VI. 1997, leg. Hofmann A. & Kautt (Hermann H. Hacker private collection at ZSM); Sisakht, Yasuj, 2250 m, 13.VI. 1972, leg. Ebert & Pazuki., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 13-14, DOI: 10.5281/zenodo.181966

Published

2008

41. Heliothis peltigera

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Heliothis, Noctuidae, Animalia, Biodiversity, Heliothis peltigera, Taxonomy

Abstract

Heliothis peltigera ([Denis & Schifferm��ller], 1775) Pl. 1, fig. 4; male genitalia Pl. 4, fig. 23; female genitalia Pl. 8, fig. 39. Noctua peltigera [Denis & Schifferm��ller], 1775, Ank. Eines Syst. Werkes von den Schmett. Der Wienergegend: 89 (TL.: [Austria]: Vienna district). Synonymy: Phalaena (Bombyx) alphea Cramer, 1780; Phalaena (Noctua) florentina Esper, [1788]; Phalaena (Noctua) charmione Stoll, 1790; Phalaena (Noctua) scutigera Borkhausen, 1792; Phalaena straminea Donovan, 1793; Heliothis peltigera f. clarissima Turati, 1924; Chloridea peltigera var. insulata Navas, 1924. References: Bienert 1870 (Heliothis Peltigera); Christoph 1873 (Heliothis Peltiger); Schwingenschuss 1938 (Chloridea peltigera); Kalali 1976 (Chloridea peltigera); Modarres Awal 1994, 1997, 1999 (Chloridea (= Heliothis) peltigera), Hacker & Kautt 1999 (Heliothis peltigera); Hacker & Meineke 2001 (Heliothis peltigera); Gutleb & Wiesser 2001 (Heliothis peltigera); Hacker 2001 (Heliothis peltigera); Ebert & Hacker 2002 (Heliothis peltigera). Bionomics: Multivoltine, throughout the year, probably bivoltine with summer aestivation (Kravchenko et al. 2005). Moths flying from January to December. Larvae are polyphagous, feed on 49 species of herbaceous plants, shrubs and trees of 13 botanical families, prefer Asteraceae, Fabaceae, Malvaceae, Lamiaceae and Solanaceae. The species is a well-known pest in fields and gardens but is less destructive than Helicoverpa armigera. Heliothis peltigera inhabits the Mediterranean evergreen sclerophyllous forest zone and various kinds of subtropical open lands, usually modifed by agriculture or gardens up to elevation 3300 m. It is a wellknown migratory species in the Mediterranean Basin and Near and Middle East. Eastward, it extends to the Indian Subcontinent, the Himalaya region, Tibet and the mountain chains of the former West Turkistan, south to all Arabian Peninsula and East Africa (Hacker 2001). Distribution: Palaeosubtropic-Paleotropical. North and East Africa, Europe (in the north ��� migrant), Near East, Caucasus, Transcaucasia, Central Asia, Kazakhstan, China (including Tibet), north India, Nepal, South- East Asia. ��� In Iran (Pl. 10, fig. 52) occurs everywhere except eastern provinces. Material examined: 396 specimens from provinces West Azerbaijan, East Azerbaijan, Ardebil, Guilan, Mazandaran, Golestan, Khorasan, Semnan, Tehran, Qom, Qazvin, Zanjan, Kordestan, Kermanshah, Lorestan, Esfahan, Charmahal va Bakhtiari, Kohkiluyeh va Boyer-Ahmad, Khuzestan, Fars, Yazd, Kerman, Bushehr, Hormozgan and Sistan va Baluchestan, collected between 1.I to 17.XII on elevations from 0 to 3300 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 7-8, DOI: 10.5281/zenodo.181966

Published

2008

42. Masalia Moore 1881

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Masalia, Noctuidae, Animalia, Biodiversity, Taxonomy

Abstract

Genus Masalia Moore, 1881 Type species: Masalia radiata Moore, 1881 Synonymy: Pradatta Moore, 1881, Curubasa Moore, 1881, Lecerfia Dumont, 1920 Taxonomic note: we treat Masalia here as a separate genus, revised by Seymour (1972). Because the Iranian species of Masalia are very similar externally, a brief key is given below for their identification: 1 (2). Forewings ground colour is olive-brown; the discal cell is pure white in its distal half Masalia albida 2 (1). Forewings ground colour is reddish-brown; the discal cell is not pure white even partly.................... 3 3 (4). All forewing veins are reddish-brown; the discal cell is yellow-white; there is a narrow yellow-white stripe between veins R 5 and M 1 and a broad stripe between veins CuA 1 and CuA 2, also a yellowwhite wedge-shaped stroke between veins M 3 and CuA 1 .................... Masalia perstriata fuscostriata 4 (3). Forewing veins R 4, R 5, M+M 2 and M 3 are white; the discal cell is reddish-brown; there are no yellow-white stripes or wedges between the veins of forewings ....................................... Masalia philbyi, Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 23, DOI: 10.5281/zenodo.181966

Published

2008

43. Heliothis nubigera Herrich-Schaffer 1851

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Heliothis, Noctuidae, Animalia, Biodiversity, Heliothis nubigera, Taxonomy

Abstract

Heliothis nubigera Herrich-Sch��ffer, 1851 Pl. 1, fig. 3; male genitalia Pl. 4, fig. 22. Heliothis nubigera Herrich-Sch��ffer, 1851, Syst. Bearb. Schmett. Eur. 2: 366 (TL.: [Turkey], Asia Minor). Synonymy: Heliothis perigeoides Moore, 1881; Chloridea nubigera var. deserta Sohn-Rethel, 1929; Heliothis nubigera subsp. minutier Thurner, 1938. References: Bienert 1870 (Heliothis Nubigera); Christoph 1873 (Heliothis Nubiger); Schwingenschuss 1938 (Chloridea nubigera); Reisser 1958 (Chloridea nubigera); Modarres Awal 1994, 1997 (Chloridea nubigera), Hacker & Kautt 1999 (Heliothis nubigera); Modarres Awal 1999 (Heliothis nubigera), Gutleb & Wiesser 2001 (Heliothis nubigera); Hacker 2001 (Heliothis nubigera), Ebert & Hacker 2002 (Heliothis nubigera). Bionomics: Multivoltine, probably bivoltine with summer aestivation (Kravchenko et al. 2005). H. nubigera inhabits eremic and arid areas of the steppe, semi-desert and desert zone as well as subtropical and tropical areas on elevation 0-3300 m, and extends from there to other regions to the north and south. In North Africa, and the Near and Middle East, it is known from all countries as a common migratory moth. Moth flying from February to November. Larvae are polyphagous, feed on 12 species of herbaceous plants and shrubs of 9 botanical families, prefer Solanaceae and Fabaceae. They are more frequent on wild herbs than on agricultural or garden crops, unlike H. peltigera and Helicoverpa armigera. Distribution: Afrotropic-West Palaearctic. Europe (in the north ��� migrant), North and East Africa, Caucasus, Transcaucasia, Central Asia, India. ��� In Iran occurs everywhere (Pl. 10, fig. 51). Material examined: 261 specimens from provinces West Azerbaijan, East Azerbaijan, Ardebil, Mazandaran, Golestan, Khorasan, Yazd, Semnan, Tehran, Qom, Markazi, Zanjan, Kermanshah, Esfahan, Kohkiluyeh va Boyer-Ahmad, Lorestan, Khuzestan, Fars, Kerman, Bushehr, Hormozgan and Sistan va Baluchestan, collected between 12.II to 12.XI on elevations from 0 to 3300 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 7, DOI: 10.5281/zenodo.181966

Published

2008

44. Periphanes

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Periphanes, Insecta, Arthropoda, Noctuidae, Biodiversity, Plantae, Taxonomy

Abstract

Genus Periphanes HÜBNER, [1821] Type species: Phalaena Noctua delphinii Linnaeus, 1758 Synonymy: Chariclea Curtis, 1825, Chariclea Stephens, 1829, Philareta Moore, 1881, Calocharia Beck, 1996, Helivictoria Beck, 1996.

Published

2008

45. Aedophron rhodites Eversmann 1851

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Noctuidae, Aedophron rhodites, Animalia, Biodiversity, Taxonomy, Aedophron

Abstract

Aedophron rhodites (Eversmann, 1851) Pl. 2, fig. 14; male genitalia Pl. 6, fig. 32. Heliothis rhodites Eversmann, 1851, Bull. Soc. Imp. Nat. Moscow, 24: 635 (TL.: [Russia]: Sarepta). Synonymy: Cleophana aurorina Herrich-Sch��ffer, 1852 References: Hampson 1903; Gutleb & Wiesser 2001 (Aedophron rhodites). Bionomics: Univoltine. The species inhabits dry steppe biotopes on medium elevations (1000-1700 m). Moths flying from May to June. Larvae feed on Phlomis spp. Distribution: Mediterranean-Asiatic. South Europe, Near East, Caucasus, Transcaucasia, Central Asia (Turkmenistan). - In Iran (Pl. 11, fig. 62) occurs in provinces Kordestan, Khorasan, Zanjan and Kermanshah. Material examined: Kordestan: Stra��e Zanjan-Bijar, 53 km S Zanjan, 1700 m, 28-29.VI. 1975; leg. Ebert G. & Falkner. Khorasan: Shar Leq (=Shar Logh), Park-e-Melli-e-Golestan, 1000 m, 11-26.V. 2001, leg. Wieser & Stangelmaier (G. Stangelmaier private collection, Austria); Almeh, Park-e-Melli-e-Golestan, 1650 m, 17-18.VII. 1996, leg. Ebrahimi & Nazari V. Zanjan: Zanjan, 50 km SW Zanjan-Bijar, 1700 m, 28.VI. 1975, leg. Pazuki A. Kermanshah: Kermanshah, 18.VI. 1975, leg. Abai M., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 22, DOI: 10.5281/zenodo.181966

Published

2008

46. Pyrrhia Hubner

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Insecta, Arthropoda, Pyrrhia, Noctuidae, Animalia, Biodiversity, Taxonomy

Abstract

Genus Pyrrhia H��bner, [1821] Type species: Phalaena umbra Hufnagel, 1766, Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on page 14, DOI: 10.5281/zenodo.181966

Published

2008

47. Schinia scutosa

Author

Matov, Alexej, Zahiri, Reza, and Holloway, Jeremy D.

Subjects

Lepidoptera, Schinia scutosa, Insecta, Arthropoda, Noctuidae, Animalia, Biodiversity, Schinia, Taxonomy

Abstract

Schinia scutosa ([Denis & Schifferm��ller], 1775) Pl. 1, fig. 7; male genitalia Pl. 5, fig. 26; female genitalia Pl. 8, fig. 42. Noctua scutosa [Denis & Schifferm��ller], 1775, Ank. Eines Sys. Werkes von den Schmett. Der Wienergegend: 89 (TL.: [Austria]: Vienna district). Synonymy: Heliothis nuchalis Grote, 1878. References: Bienert 1870; Christoph 1873 (Heliothis scutosus); Schwingenschuss 1938; Wiltshire 1945; Barou 1967; Modarres Awal 1994; 1997; 1999 (Melicleptria scutosa); Kalali 1976 (Chloridea scutosa); Hacker 1990; Ebert & Hacker 2002 (Protoschinia scutosa); Hacker 2001 (Schinia scutosa). Bionomics: Multivoltine, usually considered as bivoltine (Hacker 2001). Moths flying from April to September on elevations up to 2350 m. The main habitats of taxon are grass and Artemisia steppes. The early stages have been described by Hampson (1903), Spuler (1908), Forster & Wohlfahrt (1971), Bretherton et al. (1979) and Skou (1991). The larvae mostly feed on flowers and seeds of species of Artemisia and Chenopodium. Distribution: Holarctic. Europe, North Africa, Near East, Caucasus, Transcaucasia, Kazakhstan, Central Asia, south Siberia, Mongolia, Far East, China, north India, North America. ��� In Iran (Pl. 10, fig. 55) occurs in northern provinces. Material examined: 61 specimens from provinces West Azerbaijan (= Azerbaijan Gharbi), East Azerbaijan (= Azerbaijan Sharghi), Ardebil, Mazandaran, Guilan, Golestan, Khorasan and Tehran, collected between 14.IV to 30.IX on elevations from 0 to 2350 m., Published as part of Matov, Alexej, Zahiri, Reza & Holloway, Jeremy D., 2008, The Heliothinae of Iran (Lepidoptera: Noctuidae), pp. 1-37 in Zootaxa 1763 on pages 12-13, DOI: 10.5281/zenodo.181966

Published

2008

48. Supplementary Material Figure Legends from Varyingly hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

fungi, food and beverages, 15. Life on land

Abstract

A long-term goal in evolutionary ecology is to explain the incredible diversity of insect herbivores and patterns of plant host use in speciose groups like tropical Lepidoptera. Here, we used standardized food-web data, multigene phylogenies of both trophic levels and plant chemistry data to model interactions between Lepidoptera larvae (caterpillars) from two lineages (Geometridae and Pyraloidea) and plants in a species-rich lowland rainforest in New Guinea. Model parameters were used to make and test blind predictions for two hectares of an exhaustively sampled forest. For pyraloids, we relied on phylogeny alone and predicted 54% of species-level interactions, translating to 79% of all trophic links for individual insects, by sampling insects from only 15% of local woody plant diversity. The phylogenetic distribution of host-plant associations in polyphagous geometrids was less conserved, reducing accuracy. In a truly quantitative food web, only 40% of pair-wise interactions were described correctly in geometrids. Polyphenol oxidative activity (but not protein precipitation capacity) was important for understanding the occurrence of geometrids (but not pyraloids) across their hosts. When both foliar chemistry and plant phylogeny were included, we predicted geometrid–plant occurrence with 89% concordance. Such models help to test macroevolutionary hypotheses at the community level.

49. Figure S2 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

15. Life on land

Abstract

The phylogeny of plant hosts sampled for either geometrids or pyraloids. The 34 hosts only sampled in the Wanang data set are marked with a star. Branch lengths are equal to substitutions per site.

50. Appendix 4 from Variably hungry caterpillars: predictive models and foliar chemistry suggest how to eat a rainforest

Author

Segar, Simon T., Volf, Martin, Brus Isua, Mentap Sisol, Redmond, Conor M., Rosati, Margaret E., Gewa, Bradley, Molem, Kenneth, Dahl, Chris, Holloway, Jeremy D., Basset, Yves, Miller, Scott E., Weiblen, George, Juha-Pekka Salminen, and Novotny, Vojtech

Subjects

15. Life on land

Abstract

Literature review and summary of Geometroidea, Pyraloidea and Thyrididae host use in the oriental region.