Evaluation of seedling emergence and relative DNA content under dry soil conditions of wild Festuca arundinacea populations collected in Iran
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| Veröffentlicht in: | Grassland Science Jg. 61; H. 1; S. 6 - 14 |
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| Sprache: | Englisch |
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Blackwell Publishing Ltd
01.03.2015
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| Author | Khoshkholghsima, Nayer Azam Liaghat, Abdolmajid Jafari, Ali Ashraf Yamada, Toshihiko Kafi, Mohsen Hoshino, Yoichiro Rohollahi, Iman |
|---|---|
| Author_xml | – sequence: 1 givenname: Iman surname: Rohollahi fullname: Rohollahi, Iman organization: Department of Horticulture Science, Shahed University, Tehran, Iran – sequence: 2 givenname: Nayer Azam surname: Khoshkholghsima fullname: Khoshkholghsima, Nayer Azam email: ksima@abrii.ac.ir organization: Agriculture Biotechnology Research Institute of Iran (ABRII), Iran – sequence: 3 givenname: Toshihiko surname: Yamada fullname: Yamada, Toshihiko organization: Field Science Center for Northern Biosphere, Hokkaido University, Sapporo, Japan – sequence: 4 givenname: Mohsen surname: Kafi fullname: Kafi, Mohsen organization: Department of Horticulture Science, College of Agriculture and Natural Resource, University of Tehran, Iran – sequence: 5 givenname: Yoichiro surname: Hoshino fullname: Hoshino, Yoichiro organization: Field Science Center for Northern Biosphere, Hokkaido University, Sapporo, Japan – sequence: 6 givenname: Abdolmajid surname: Liaghat fullname: Liaghat, Abdolmajid organization: Department of Irrigation and Reclamation, College of Agriculture and Natural Resource, University of Tehran, Iran – sequence: 7 givenname: Ali Ashraf surname: Jafari fullname: Jafari, Ali Ashraf organization: Research Institute of Forests and Rangelands, Tehran, Iran |
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| Notes | ark:/67375/WNG-5HDZ3L6P-X ArticleID:GRS12074 Table S1. Means of measured germination and seedling characteristics of 16 Festuca arundinacea entries at four soil moisture levels. istex:52E8312BFADB3FC80C6948E3746072761C0B22AA Iran National Science Foundation - No. 90001304 |
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| PublicationTitle | Grassland Science |
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| PublicationYear | 2015 |
| Publisher | Blackwell Publishing Ltd Wiley |
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| References | SAS Institute (2003) SAS System for Windows, Release 9.1 edn. SAS Institute Inc, Cary, NC, USA, 1-347. Smarda P, Bures P (2006) Intraspecific DNA content variability in Festuca pallens on different geographical scales and ploidy. Ann Bot 98: 665-678. Saha MC, Mian R, Zwonitzer JC, Chekhovskiy K, Hopkins AA (2005) An SSR and AFLP based genetic linkage map of tall fescue (Festuca arundinacea) Schreb. Theor Appl Genet 110: 323-336. Knight CA, Molinari NA, Petrov DA (2005) The large genome constraint hypothesis: evolution, ecology and phenotype. Ann Bot 95: 177-190. Ceccarelli M, Minelli S, Falcinelli M, Cionini PG (1993) Genome size and plant development in hexaploid Festuca arundinacea. Heredity 71: 555-560. Hunter EA, Glasbey CA, Naylor REL (1984) The analysis of data from germination tests. J Agric Sci 102: 207-213. Caceres ME, De Pace C, Scarascia Mugnozza GT, Kotsonis P, Ceccarelli M, Cionini PG (1998) Genome size variation within Dasypyrum villosum: correlation with chromosomal traits, environmental factors and plant phenotypic characteristics and behavior in reproduction. Theor Appl Genet 96: 559-567. Minelli S, Moscariello P, Ceccarelli M, Cionini PG (1996) Nucleotype and phenotype in Vicia faba. Heredity 76: 524-530. Ceccarelli M, Falistocco E, Cionini PG (1992) Variation of genome size and organization with in hexaploid Festuca arundinacea. Theor Appl Genet 83: 273-278. Smarda P (2006) DNA ploidy levels and intraspecific DNA content variability in Romanian fescues (Festuca, Poaceae) measured in fresh and herbarium material. Folia Geobot 41: 417-432. Gazanchian A, KhoshKholgh Sima NA, Malboobi MA, Majidi Heravan E (2006) Relationships between emergence and soil water content for perennial cool-season grasses native to Iran. Crop Sci 46: 544-553. Mut Z, Akay H (2010) Effect of seed size and drought stress on germination and seedling growth of Avena sativa L. Bulg J Agric Sci 16: 459-467. Ward JH (1963) Hierarchical grouping to optimize an objective function. J Am Stat Assoc 56: 236-244. Mishiba K, Ando T, Mii M et al. (2000) Nuclear DNA content as an index character discriminating taxa in the genus Petunia sensue Jussieu (Solanaceae). Ann Bot 85: 665-673. Johnson DA, Asay KH (1993) Viewpoint: selection for improved drought response in cool-season grasses. J Range Manage 46: 194-202. Larsen SU, Bibby BM (2004) Use of germination curves to describe variation in germination characteristics in three turfgrass species. Crop Sci 44: 891-899. Buitendijk JH, Boon EJ, Ramanna MS (1997) Nuclear DNA content in twelve species of Alstroemeria L. and some of their hybrids. Ann Bot 79: 343-353. Usberti R, Valio IFM (1997) Osmoconditioning effects on germination of Guinea grass (Panicum maximum) seeds. Seed Sci Technol 25: 303-310. Fernandez RJ, Reynolds JF (2000) Potential growth and drought tolerance of eight desert grasses: lack of trade-off? Oecologia 123: 90-98. Grime JP, Thompson K, Hunt R et al. (1997) Integrated screening validates primary axes of specialisation in plants. Oikos 79: 259-281. Price HJ (1988) DNA variation among higher plants. Ann Mo Bot Gard 75: 1248-1257. Knight CA, Ackerly DD (2002) Variation in nuclear DNA content across environmental gradients: a quantile regression analysis. Ecol Lett 5: 66-76. Maguire JD (1962) Speed of germination aid in selection and evaluation for seedling emergence and vigor. Agron J 2: 176-177. Abdul-Baki AA, Anderson JD (1973) Relationship between decarboxylation of glutamic acid and vigor in soybean seed. Crop Sci 13: 227-232. Loureiro J, Kopecky D, Castro S, Silveria P (2007) Flow cytometric and cytogenetic analyses of Iberian Peninsula Festuca spp. Plant Syst Evol 269: 89-105. Yamada T (2011) Festuca. In: Wild Crop Relatives: Genomic and Breeding Resources, Millets and Grasses (Ed Kole C), Springer, New York, 153-164. |
| References_xml | – reference: SAS Institute (2003) SAS System for Windows, Release 9.1 edn. SAS Institute Inc, Cary, NC, USA, 1-347. – reference: Yamada T (2011) Festuca. In: Wild Crop Relatives: Genomic and Breeding Resources, Millets and Grasses (Ed Kole C), Springer, New York, 153-164. – reference: Hunter EA, Glasbey CA, Naylor REL (1984) The analysis of data from germination tests. J Agric Sci 102: 207-213. – reference: Smarda P (2006) DNA ploidy levels and intraspecific DNA content variability in Romanian fescues (Festuca, Poaceae) measured in fresh and herbarium material. Folia Geobot 41: 417-432. – reference: Larsen SU, Bibby BM (2004) Use of germination curves to describe variation in germination characteristics in three turfgrass species. Crop Sci 44: 891-899. – reference: Usberti R, Valio IFM (1997) Osmoconditioning effects on germination of Guinea grass (Panicum maximum) seeds. Seed Sci Technol 25: 303-310. – reference: Grime JP, Thompson K, Hunt R et al. (1997) Integrated screening validates primary axes of specialisation in plants. Oikos 79: 259-281. – reference: Gazanchian A, KhoshKholgh Sima NA, Malboobi MA, Majidi Heravan E (2006) Relationships between emergence and soil water content for perennial cool-season grasses native to Iran. Crop Sci 46: 544-553. – reference: Caceres ME, De Pace C, Scarascia Mugnozza GT, Kotsonis P, Ceccarelli M, Cionini PG (1998) Genome size variation within Dasypyrum villosum: correlation with chromosomal traits, environmental factors and plant phenotypic characteristics and behavior in reproduction. Theor Appl Genet 96: 559-567. – reference: Minelli S, Moscariello P, Ceccarelli M, Cionini PG (1996) Nucleotype and phenotype in Vicia faba. Heredity 76: 524-530. – reference: Mishiba K, Ando T, Mii M et al. (2000) Nuclear DNA content as an index character discriminating taxa in the genus Petunia sensue Jussieu (Solanaceae). Ann Bot 85: 665-673. – reference: Abdul-Baki AA, Anderson JD (1973) Relationship between decarboxylation of glutamic acid and vigor in soybean seed. Crop Sci 13: 227-232. – reference: Smarda P, Bures P (2006) Intraspecific DNA content variability in Festuca pallens on different geographical scales and ploidy. Ann Bot 98: 665-678. – reference: Price HJ (1988) DNA variation among higher plants. Ann Mo Bot Gard 75: 1248-1257. – reference: Mut Z, Akay H (2010) Effect of seed size and drought stress on germination and seedling growth of Avena sativa L. Bulg J Agric Sci 16: 459-467. – reference: Loureiro J, Kopecky D, Castro S, Silveria P (2007) Flow cytometric and cytogenetic analyses of Iberian Peninsula Festuca spp. Plant Syst Evol 269: 89-105. – reference: Ceccarelli M, Falistocco E, Cionini PG (1992) Variation of genome size and organization with in hexaploid Festuca arundinacea. Theor Appl Genet 83: 273-278. – reference: Knight CA, Ackerly DD (2002) Variation in nuclear DNA content across environmental gradients: a quantile regression analysis. Ecol Lett 5: 66-76. – reference: Johnson DA, Asay KH (1993) Viewpoint: selection for improved drought response in cool-season grasses. J Range Manage 46: 194-202. – reference: Saha MC, Mian R, Zwonitzer JC, Chekhovskiy K, Hopkins AA (2005) An SSR and AFLP based genetic linkage map of tall fescue (Festuca arundinacea) Schreb. Theor Appl Genet 110: 323-336. – reference: Ceccarelli M, Minelli S, Falcinelli M, Cionini PG (1993) Genome size and plant development in hexaploid Festuca arundinacea. Heredity 71: 555-560. – reference: Fernandez RJ, Reynolds JF (2000) Potential growth and drought tolerance of eight desert grasses: lack of trade-off? Oecologia 123: 90-98. – reference: Knight CA, Molinari NA, Petrov DA (2005) The large genome constraint hypothesis: evolution, ecology and phenotype. Ann Bot 95: 177-190. – reference: Maguire JD (1962) Speed of germination aid in selection and evaluation for seedling emergence and vigor. Agron J 2: 176-177. – reference: Ward JH (1963) Hierarchical grouping to optimize an objective function. J Am Stat Assoc 56: 236-244. – reference: Buitendijk JH, Boon EJ, Ramanna MS (1997) Nuclear DNA content in twelve species of Alstroemeria L. and some of their hybrids. Ann Bot 79: 343-353. |
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| Title | Evaluation of seedling emergence and relative DNA content under dry soil conditions of wild Festuca arundinacea populations collected in Iran |
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