DOCSLIB.ORG

PLANT LIST Flowering Plants - Sr.No Common Name Botanical Name Bag Size Height 1

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

PLANT LIST Flowering plants - Sr.No Common Name Botanical Name Bag Size Height 1. Antirinum Antirrhinum Majus 6x6 6" 3"-6" Bushy 2. Begonia Begonia Semperflorens 6" Flowering 3. Vinca Hybrids Catharanthus Rosea 6x6 4"-6"Flowering 4. Dahila Dwarf Dahlia Pinnata 6x6 6"Flowering 5. Chrysanithemum Dendranthema Hybrids 6x6 6-9" 6. Dianthus Dianthus Chinensis 6x6 4"-6"Flowering 7. Poinsettia Dwarf Euphorbia Pulcherrima Christ 7x7 9"Flowering 8. Poinsettia Dwarf Euphorbia Pulcherrima Christ 6" 9" Bushy Flowering 9. Poinsettia Dwarf Euphorbia Pulcherrima Christ 13x13 2' Bushy Flowering 10. Gaznia Hybrids Gazania Rigens 6x6 Bushy Flowering 11. Gerbera Single Gerbera Jamesonii 5x6 Bushy 12. Gerbera Hybrids Gerbera Jamesonii Hybrids 8" Bushy With Flowering 13. Impatiens Impatiens Wallerania 6x6 3"-4"Bushy Flowering 14. Impatiens Impatiens Wallerania 6" 6"Bushy Flowering 15. Geranium Hybrid Pelargonum Hortorum 6" 7"Bushy Flowering 16. Petunia Petunia Grandiflora 6x6 4" Flowering 17. Salvia Salvia Splendens 6x6 6-8" Flowering 18. Marigold African Tagetes Erecta 6x6 FP FRUIT PLANTS 19. Chickoo Kalipatti Acrus Sapota 5X6 2'-3' 20. Chickoo Kalipatti Acrus Sapota 8X10 3'-4' 21. Chickoo Kalipatti Acrus Sapota 13X13 5'-6' 22. Chickoo Kalipatti Acrus Sapota 21X21 5'-6' Bushy With Fruit 23. BEALFRUIT Aegle Marmelos 5X6 6" 24. Cashew Nut Anacardium Occidentale 5X6 1' 25. Annana Ramphal Annona Ramphal 5X6 2' 26. Annana Ramphal Annona Ramphal 21X21 10'-12' With Fruit 27. Phanas Grafted Artocarpus Altilis Grafted 8X10 2' 28. Phanas Grafted Artocarpus Altilis Grafted 13X13 3'-4' 29. Phanas Grafted Artocarpus Altilis Grafted 21X21 3'-4' Bushy 30. PAPAYA Carica Papaya 5X6 9"-1' 31. LIME Citrus Medicalimonia 5X6 2' 32. Lime Citrus Medicalimonia 13X13 2' -3' Bushy 33. Lime Citrus Medicalimonia 21X21 Bushy With Fruit Page 1 1 SANJAY NURSERY PLANT LIST Sr.No Common Name Botanical Name Bag Size Height 34. Orange Citrus Reticulata 5X6 2' 35. Orange Citrus Reticulata 21X21 3'-4' Bushy With Fruit 36. Mosambi Citrus Sinensis 5X6 2' 37. Mosambi Citrus Sinensis 21X21 3'-4' Bushy With Fruit 38. REGULAR COCONUT Cocos Nucifera East NAKED 3' -4' 39. REGULAR COCONUT Cocos Nucifera East 13X13 4' -5' 40. REGULAR COCONUT Cocos Nucifera East 21X21 4' -5' With Trunk 41. GOLDEN COCONUT Cocos Nucifera Malay 13X13 3' -4' 42. GOLDEN COCONUT Cocos Nucifera Malay 21X21 4' -5' With Trunk 43. Jambhul Grafted Eugenia Jambolana 8X10 3' -4' 44. Jambhul Grafted Eugenia Jambolana 21X21 7' -9' With Fruit 45. Fig Anjir Ficus Carica 7X8 1' 46. Fig Anjir Ficus Carica 8X10 2' -4' With Fruit 47. Fig Anjir Ficus Carica 13X13 4' -5' With Fruit 48. Mango Grafted Mangifera Indica Variety 8X10 3' -4' 49. Mango Grafted Mangifera Indica Variety 13X13 4' 50. Mango Grafted Mangifera Indica Variety 21x21 4' -5' 51. Amla Grafted Phyllanthus Acidus 7x8 3' -4' 52. Amla Grafted Phyllanthus Acidus 13x13 5'- 6' With Fruit 53. Amla Grafted Phyllanthus Acidus 21x21 1 54. Guava Sardar Psidium Gujava 7x8 1' -2' 55. Guava Sardar Psidium Guiava 13x13 4' -5' 56. Guava Sardar Psidium Guiava 21x21 3' -4' With Fruit 57. Pomegranate Punica Granatum 5x6 1' -2' 58. Pomegranate Punica Granatum 8x10 59. Pomegranate Punica Granatum 12x13 2' -3' Bushy 60. Pomegranate Punica Granatum 21x21 2' -4' With Fruit 61. Tamarind Grafted Tamarindus Indica 5x6 2' 62. Tamarind Grafted Tamarindus Indica 21x21 4' -5' With Fruit 63. Water Apple (Jam) 21x21 4'-5' With Fruit 64. ROSES RO 65. Miniature Roses 5x6 1' 66. Miniature Roses 8x10 1' With Flowering 67. Floribunda Rose 5x6 1' 68. Floribunda Rose 8x10 1' With Flowering 69. Mix Rose 5x6 1.6" 70. Mix Rose 8x10 1.6" With Flowering 71. Summer Snow 5x6 1' 72. Summer Snow 8x10 1.6" With Flowering GRASS AND BAMBOO 73. Bamboo White Varigated Bambusa Species 8X10 2' 74. Bamboo White Varigated Bambusa Species 13X13 3'-4' Bushy 75. Bamboo White Varigated Bambusa Species 17X18 4' Bushy 76. Bambaoo Buddha Beely Bambusa Ventricosa 13X13 4' 77. Bambaoo Buddha Beely Bambusa Ventricosa 17X18 5'-6' Bushy 78. Bambaoo Buddha Beely Bambusa Ventricosa 21X21 6'-7'bushy 79. Bambaoo Golden Bambusa Vulgaris 8X10 5' 80. Bambaoo Golden Bambusa Vulgaris 13X13 7'-8' 2 Shoot 81. Bambaoo Golden Bambusa Vulgaris 17X18 82. Bambaoo Golden Bambusa Vulgaris 21X21 12'-15' With Stem 83. Umbrella Grass Cyperus Alternlfolius 7X8 2' 84. Umbrella Grass Cyperus Alternlfolius 10x10 2'-3' Bushy 85. Bamboo Green Tall Dendrocalamus Species 8x10 3'-4' Page 2 2 SANJAY NURSERY PLANT LIST Sr.No Common Name Botanical Name Bag Size Height 86. Bamboo Green Tall Dendrocalamus Species 13x13 6'-7' 87. Bamboo Green Tall Dendrocalamus Species 17x18 8' Bushy Dianella Tasmanica 88. Daniella Grass Varigated 7x8 1-2 Suckers Dianella Tasmanica 89. Daniella Grass Varigated 10x10 3-4 Suckers Dianella Tasmanica 90. Daniella Grass Varigated 13x13 4-5 Suckers Dianella Tasmanica 91. Daniella Grass Varigated 18x15 5-6 Suckers 92. Ribbon Grass Green Ophiopogon Jaburan 5x6 4" 93. Ribbon Grass Green Ophiopogon Jaburan 7x8 6"-9" 94. Ribbon Grass Green Ophiopogon Jaburan 10x10 9" Bushy 95. Ribbon Grass Green Ophiopogon Jaburan 13x13 1' Bushy Ophiopogon Jaburan 96. Ribbon Grass Varigated Varigated 5x6 4" -6" Ophiopogon Jaburan 97. Ribbon Grass Varigated Varigated 7x8 6" -9" Ophiopogon Jaburan 98. Ribbon Grass Varigated Varigated 10x10 9" -1' Bushy Ophiopogon Jaburan 99. Ribbon Grass Varigated Varigated 13x13 1' Bushy 100. Paspalum Lawn Paspalum Notatum Kg 101. American Blue Grass Poa Pratensis Kg 102. Lawn Korean Carpet Zoysia Japonica Matrella 2x1 103. Fountain Grass Red Pennisetum Rueppli 5x6 1' -1'.6" 104. Fountain Grass Red Pennisetum Rueppli 7x8 2' Bushy 105. Fountain Grass Red Pennisetum Rueppli 10x10 2' -3' Bushy 106. Fountain Grass Red Pennisetum Rueppli 13x13 3' -4' Bushy 107. Fountain Grass Green 5x6 1' 108. Fountain Grass Green 7x8 2' 2 109. Fountain Grass Green 10x10 2' -3' Bushy 110. Fountain Grass Green 13x13 4' -5' Bushy 111. Bamboo Grass Pogonatherum Paniceum 5x6 1' 112. Bamboo Grass Pogonatherum Paniceum 7x8 1'.6" Bushy 113. Bamboo Grass Pogonatherum Paniceum 10x10 1'-1'.6" Bushy Shape 114. Bamboo Grass Pogonatherum Paniceum 13x13 1' -2' Bushy Shape 115. Bamboo Grass Varigated Pogonatherum Paniceum 5x6 1' 116. Bamboo Grass Varigated Pogonatherum Paniceum 7x8 1'bushy 117. Bamboo Grass Varigated Pogonatherum Paniceum 10x10 1' -1'.6" Bushy 118. Bamboo Grass Varigated Pogonatherum Paniceum 13x13 1' -2' Bushy 119. Monkey Grass Ophiopogon Japonica 5x6 6" 120. Monkey Grass Ophiopogon Japonica 7x8 6" -9" GROUND COVER AND HERB 121. Abelia Varigated Abelia Varigated 5X6 6" -11" 122. Acalypha Creeping Acalypha Hispaniolae 5X6 6" 123. Reep Green Alternanthera Bettzickiana 5X6 2" -4" 124. Reep Red Alternanthera Bettzickiana 5X6 2"-4" 125. Reep White Alternanthera Bettzickiana 5X6 2" -3" Bushy 126. Reep Eriseen Alternanthera Versicolor 5X6 6" -11" Bushy 127. Angelonia Purple Angelonia Grandiflora 5X6 6"Bushy 1' Bushy With 128. Angelonia Purple Angelonia Grandiflora 7X8 Flowering 2' Bushy With 129. Angelonia Purple Angelonia Grandiflora 10X10 Flowering 130. Angelonia White Angelonia Grandiflora 5X6 6" Bushy 131. Angelonia White Angelonia Grandiflora 7X8 1'flowering Page 3 3 SANJAY NURSERY PLANT LIST Sr.No Common Name Botanical Name Bag Size Height 2' Bushy With 132. Angelonia White Angelonia Grandiflora 10X10 Flowering 133. Asystasia Lemon Flowers Asystasia Coromandalina 5X6 6" -9" Flowering 134. Spider Chlorophytum Comosum 5X6 3" 135. Golden Cuphea 5X6 6" 136. Cuphea Purple Cuphea Hyssopifolia 5X6 6" Flowering 137. Cuphea White Cuphea Hyssopifolia Hybrid 5X6 6" Flowering 138. Polka Dot Mix Hypoestes Sanguinoleata 5X6 6" Flowering 139. Geynura Gynura Aurantica 5X6 6" Flowering 140. Touch Menot Mimosa Pudica 5X6 1' 141. Ipomoea Golden Ipomoea Batatas Chartreus 5x6 6"Ground Cover 142. Ipomoea Pink Ipomoea Tricolour 5x6 6" Ground Cover 143. Pilea Pilea Microphylla 5x6 6"Ground Cover 144. Office Time Portulaca 5x6 6" Ground Cover 145. Rhoea Rhoeo Spathacea 5x6 4" Bushy 146. Rhoea Varigated Rhoeo Spathacea 5x6 4" 147. Rhoea Varigated Rhoeo Spathacea 7x8 4"Bushy 148. Rhoea Varigated Rhoeo Spathacea 10x10 5 -10 Suckers 149. Rhoea Varigated Rhoeo Spathacea 13x13 7 To 10 Suckers 150. Ruellia Rosea Ruellia Rosea 5x6 6" 151. Silver Dust 5x6 4" -6" 152. Lavender Santolina 5x6 6" 153. Setcreasea Purpurea Purple Heartvine 5x6 6"Ground Cover 154. Tradescantia Tradescantia Albiflora 5x6 6" Ground Cover 155. Verbena Verbena 5x6 6" Flowering 156. Zerbrina Pendula Wadering Jew 5x6 6" 157. Gulmedhi Dawrf 5x6 6" -9" 158. Bharliya Pink 5x6 4" 6" Bushy 159. Bharliya Purple 5x6 9" 1'bushy 160. Hemigraphis Colorata Purple Waffle Plant 5x6 6" Bushy 161. Colius 5x6 6"Bushy 162. Waddleya Waddleya Trilobata INDOOR PLANT 163. Aglaonema Mix Aglaonema Commutatum 7X8 1' 164. Aglaonema Mix Aglaonema Commutatum 10X10 1' Bushy 165. Aglaonema Mix Aglaonema Commutatum 13X13 1' -1'.6" Bushy 166. Aglaonema Mix Aglaonema Commutatum 17X18 1' -2' Bushy 167. Alocasia Macrorrhiza Alocasia 10x10 2' 168. Alocasia Macrorrhiza 13x13 2.6" 169. Alocasia Macrorrhiza 17x18 3' -4' 170. Alocasia Amazonica Alocasia Amazonica 10x10 6" -9" 171. Alocasia Amazonica Alocasia Amazonica 13x13 1' Bushy 172. Alocasia Amazonica Alocasia Amazonica 17x18 2' Bushy 173. Christmas Tree Araducaria Heterophylla 10x10 2' 174. Christmas Tree Araducaria Heterophylla 13x13 3' 175. Christmas Tree Araducaria Heterophylla 17x18 6' -7' 176. Brassia Actinophylla Umberella Plant 10x10 2' -2.6" 177. Brassia Actinophylla Umberella Plant 13x13 2'-3' 178. Brassia Actinophylla Umberella Plant 17x18 4' -5' 179. Dracaena Mahatma Cordyline Terminalis 5x6 1.6' 180. Dracaena Mahatma Cordyline Terminalis 7x8 1.6" Bushy 181. Dracaena Mahatma Cordyline Terminalis 10x10 2.6" 182. Dracaena Mahatma Cordyline Terminalis 13x13 2.6" Bushy Page 4 4 SANJAY NURSERY PLANT LIST Sr.No Common Name Botanical Name Bag Size Height 183. Dracaena Mix Cordyline 7x8 1' 184. Dracaena Mix Cordyline 10x10 1' Bushy 185. Dracaena Colorama Dracaena Colorama 7x8 1.6" 186.
Recommended publications
  • Contributions to the Solution of Phylogenetic Problem in Fabales

    Contributions to the Solution of Phylogenetic Problem in Fabales

    Research Article Bartın University International Journal of Natural and Applied Sciences Araştırma Makalesi JONAS, 2(2): 195-206 e-ISSN: 2667-5048 31 Aralık/December, 2019 CONTRIBUTIONS TO THE SOLUTION OF PHYLOGENETIC PROBLEM IN FABALES Deniz Aygören Uluer1*, Rahma Alshamrani 2 1 Ahi Evran University, Cicekdagi Vocational College, Department of Plant and Animal Production, 40700 Cicekdagi, KIRŞEHIR 2 King Abdulaziz University, Department of Biological Sciences, 21589, JEDDAH Abstract Fabales is a cosmopolitan angiosperm order which consists of four families, Leguminosae (Fabaceae), Polygalaceae, Surianaceae and Quillajaceae. The monophyly of the order is supported strongly by several studies, although interfamilial relationships are still poorly resolved and vary between studies; a situation common in higher level phylogenetic studies of ancient, rapid radiations. In this study, we carried out simulation analyses with previously published matK and rbcL regions. The results of our simulation analyses have shown that Fabales phylogeny can be solved and the 5,000 bp fast-evolving data type may be sufficient to resolve the Fabales phylogeny question. In our simulation analyses, while support increased as the sequence length did (up until a certain point), resolution showed mixed results. Interestingly, the accuracy of the phylogenetic trees did not improve with the increase in sequence length. Therefore, this study sounds a note of caution, with respect to interpreting the results of the “more data” approach, because the results have shown that large datasets can easily support an arbitrary root of Fabales. Keywords: Data type, Fabales, phylogeny, sequence length, simulation. 1. Introduction Fabales Bromhead is a cosmopolitan angiosperm order which consists of four families, Leguminosae (Fabaceae) Juss., Polygalaceae Hoffmanns.
  • Coastal Elegance Collecting Plants Flowering Trees

    Coastal Elegance Collecting Plants Flowering Trees

    Tropical, Subtropical and Warm Climate Gardening ISSUE 34 – QUARTERLY $9.95 AUD $11.95 NZD COASTALCOASTALCOASTAL ELEGANCEELEGANCEELEGANCE COLLECTINGCCOLLECTINGOLLECTING PLANTSPPLANTSLANTS FLOWERINGFFLOWERINGLOWERING TREESTTREESREES LUSHLLUSHUSH TROPICALTTROPICALROPICAL DARWINDDARWINARWIN VANILLAVVANILLAANILLA ISSN 1832–8717 GARDEN DESIGN SPIKEY ECO LIVING EDIBLES www.stgmagazine.com.au Issue 34 – STG 1 – plant combinations – prickly beauties – Currumbin – Aussie capers Addicted to Plants Each person has a vice. To some it may be chocolate, buying shoes or collecting teddy bears. For many gardeners, the vice is collecting plants based on a type, genus, colour form, rarity or curiosity. Join Ross Gelling as he interviewed one gardener unashamed of his addiction. 28 STG – Issue 34 www.stgmagazine.com.au Prickly Beauties a pictorial of prickly pretties On a recent visit to the Brisbane Botanic Gardens at Mt. Coot-tha, Heather Knowles spent some time in the Arid Zone, a section of the gardens she had not visited for a number of years. 34 STG – Issue 34 www.stgmagazine.com.au GARDEN DESIGN Part 1 Planting combinations - Pulling it together Tan Jan Sari in Brisbane has some superb planting combinations to inspire. By Arno King ften we concentrate on growing perfect, robust and healthy plants. Sometimes we focus our horticultural skills on those diffi cult or very rare plants. OOften we are just grateful that anything grows in a diffi cult spot, be it dry shade, shallow soils over rock or windy locations near the sea. However, it is the way each plant works with its neighbour and how they contribute together to create a stunning picture, viewed from many directions and in a sequence, that makes a truly memorable garden.
  • Dr. R. Renjumol

    Dr. R. Renjumol

    T REPRO N DU LA C The International Journal of Plant Reproductive Biology 9(1) Jan., 2017, pp.73-76 P T I F V O E Y B T I DOI 10.14787/ijprb.2017 9.1.73-76 O E I L O C G O S I S E T S H Reproductive biology of Amherstia nobilis WALL. (Fabaceae) T R. Renjumol and *P.M. Radhamany Department of Botany,University of Kerala, Kariavattom,Thiruvananthapuram,Kerala-695581 *e-mail : [email protected] Received : 01.11.2016; Revised : 11.12.2016; Accepted and Published online : 01.01.2017 ABSTRACT Amherstia nobilis Wall.(Fabaceae) is a critically endangered tree species of north-east India. Present investigation was undertaken to obtain information on the phenology, pollination and breeding system of A. nobilis growing in Thiruvananthapuram district. It flowers between November-April with maximum flowering during February and March. The flowers were large, bisexual, odourless, crimson red and arranged in long pendulous racemes. The flowers were highly protandrous as anthers dehisced in buds much prior to stigma receptivity. The anthers were versatile and produced large quanity of pollen/flower (86759±447.77) showing only 29±5% viability by FDA test and 35% in vitro germination in B&K medium,while only 25% germinate on stigmatic surface. Anthers are bithecous, versatile and dehisce longitudinally. Maximum fruit (24.1 plant) and seed-set was recorded in open pollinated plants. There were 4±1 ovules/flower and the pollen-ovule ratio was 21689.75:1. Production of large number of pollen by versatile anthers and high pollen-ovule ratio indicate anemophilous nature of A.
  • GC-MS Analysis and Antibacterial Activity of Amherstia Nobilis. W Leaf

    GC-MS Analysis and Antibacterial Activity of Amherstia Nobilis. W Leaf

    International Journal of Herbal Medicine 2018; 6(6): 101-105 E-ISSN: 2321-2187 P-ISSN: 2394-0514 IJHM 2018; 6(6): 101-105 GC-MS analysis and antibacterial activity of Amherstia Received: 09-09-2018 Accepted: 13-10-2018 nobilis. W leaf extract Jasna TJ Nehru College of pharmacy, Jasna TJ, Dr. Jaiganesh KP and Dr. Sreedharren B Pampady, Thrissur, Kerala, India Abstract Dr. Jaiganesh KP Amherstia nobilis W is a plant of Burman origin also known as pride of Burma. It is the only plant found Nehru College of pharmacy, in the genus Amherstia. The present study carried out to analyse the unknown chemical compounds of Pampady, Thrissur, Kerala, the plant by GC-MS analysis of ethanolic leaf extract and the antibacterial effect of 70% ethanolic India extract. GC-MS analysis revealed the presence of 27 chemical compounds. Some of the major compounds found are PHENOL, 2, 4-BIS (1, 1-Dimethylethyl), Eicosane, Tetradecanoic acid, 3- Dr. Sreedharren B Heptadecanol, Neophytadiene, Phytol, acetate. Antibacterial activity was carried out using disc diffusion Nehru College of pharmacy, method in Staphylococcus aureus, Bacillus subtilis, Pseudomonas aeroginosa, Escherichia coli. Leaf Pampady, Thrissur, Kerala, extractshowed maximum zone of inhibition against Staphylococcus aureus and Pseudomonas India aeroginosa. Keywords: GC-MS analysis, antibacterial, Amherstia nobilis 1. Introduction Pride of Burma also known as orchid tree is a tropical tree with beautiful flowers. It has only been collected from the wild, in the forests of Burma, leading to its common name Pride of Burma. In the early Nineteenth century Lady Sarah Amherst collected this plants in Asia and [1] the genus named after this plants are rich sources of secondary metabolic products having various therapeutic activities.
  • American Magazine

    American Magazine

    The American HORTICULTURAL Magazine summer 1971 / volume 50 / number 3 50th Anniversary Edition Journal of the American Horticultural Society, Inc. 901 NORTH WASHINGTON STREET, ALEXANDRIA, VIRGINIA 22314 For United Horticulture . .. The particulm' objects and business of the American HOl·ticult1l1"al Society are to promote and encourage national interest in scientific research and education in horticulture in all of its branches. 1970-71 EXECUTIVE CO~I~IITTEE (*) President Treastl?"er DR. DAVID G. LEACH (1971) l\ IR. JOHN l\f. PATEK (1972) 1674 Trinity Road President North Madison, Ohio 44057 Color Data, Inc. 434 I\/ount Airy Drive First Vice President Rochester, New York 14617 MRS. ERNESTA D. BALLARD (1973) Director, Pennsylvania i\lembe?- ot the Board Ho~ticultural Society DR. HENRY ]\f. CATHEY (1973) 325 Walnut Street Leader, Ornamental Investigations Philadelphia, Pennsylvania 19106 Agricultural Research Service Second Vice President U oS. Department of Agriculture Beltsville, Maryland 20705 MR. FREDERICK J . CLOSE (1971) 6189 Shore Drive North Madison, Ohio 44057 Immediate Past President MR. FRED C. GALLE (1971) (**) Sec?-eta1"y Director of Horticulture DR. GEORGE H. M. LAWRENCE (1971) C allaway Gardens 390 Forge Road Pine Mountain, Georgia 31822 East Greenwich, Rhode Island 02818 AHS PLA:-.JT RECORDS CE:-.JTER MR. O. KEISTER EVANS MR. ROBERT D. MACDONALD MR. RICHARD A. BROWN Executive Director Director Assistant Director Alexandria, Virginia Lima, Pennsylvania Lima, Pennsylvania ("') Members of the 1970-71 Board of Directors per bylaw provision. (*"') Ex officio, and without vo~e. THE AMERICAN HORTICULTURAL MAGAZINE is the official publication of The American Horticultural Society and is issued during the Winter, Spring, Summer, and Fall quarters.
  • Plastome Evolution and a Novel Loss of the Inverted Repeat In

    Plastome Evolution and a Novel Loss of the Inverted Repeat In

    bioRxiv preprint doi: https://doi.org/10.1101/2021.02.04.429812; this version posted February 5, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license. The chicken or the egg? Plastome evolution and a novel loss of the inverted repeat in papilionoid legumes. Chaehee Lee1, In-Su Choi2, Domingos Cardoso3, Haroldo C. de Lima4, Luciano P. de Queiroz5, Martin F. Wojciechowski2, Robert K. Jansen1,6, and Tracey A Ruhlman1* 1Department of Integrative Biology, University of Texas at Austin 2School of Life Sciences, Arizona State University, Tempe, Arizona 85287-4501 USA 3Instituto de Biologia, Universidade Federal de Bahia (UFBA), Rua Barão de Jeremoabo, s.n., Ondina, 40170-115, Salvador, Bahia, Brazil 4Instituto de Pesquisas Jardim Botânico do Rio de Janeiro, Rua Pacheco Leão, 915 22460-030, Rio de Janeiro, Brazil 5Universidade Estadual de Feira de Santana, Av. Transnordestina, s/n, Novo Horizonte 44036-900, Feira de Santana, Bahia, Brazil 6Center of Excellence for Bionanoscience Research, King Abdulaziz University (KAU), Jeddah, Saudi Arabia *For correspondence (email [email protected]) bioRxiv preprint doi: https://doi.org/10.1101/2021.02.04.429812; this version posted February 5, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC-ND 4.0 International license.
  • Effect of Silver Nanoparticles Synthesized Using Aqueous Leaf Extract of Amherstia Nobilis on Marine Biofilms

    Effect of Silver Nanoparticles Synthesized Using Aqueous Leaf Extract of Amherstia Nobilis on Marine Biofilms

    Plant Archives Vol. 18 No. 1, 2018 pp. 251-256 ISSN 0972-5210 EFFECT OF SILVER NANOPARTICLES SYNTHESIZED USING AQUEOUS LEAF EXTRACT OF AMHERSTIA NOBILIS ON MARINE BIOFILMS Meenakshi K., Pracheta Salunkhe and Indu A.G.* *Department of Life Sciences, University of Mumbai, Kalina Campus, Vidyanagari, Santacruz (E), Mumbai (Maharashtra) India Abstract The present study emphasized the synthesis of silver nanoparticles (SNP) from silver nitrate through bioreduction method using Amherstia nobilis leaf extract and evaluation of anti-marine biofilm activity of the synthesized particles. The phytosynthesis of silver nanoparticles was demonstrated firstly by visual observation and then by spectral methods : UV- Visible absorption spectroscopy, Fourier Transform Infrared Spectroscopy (FTIR) and Dynamic Light Scattering technique (DLS). The Energy dispersive X-ray spectrum of the colloidal solution confirmed the presence of an elemental silver signal. Transmission Electron Microscopy analysis revealed that the nanoparticles were mostly spherical in shape and the particle size ranges from 3.74nm to 40.43nm. The stability of the silver nanoparticles was checked by ξ-potential measurements. It is found that silver nanoparticles synthesized by aqueous leaf extract of A. nobilis were effective against biofilm formation of microbes such as marine B. subtilis and marine E. coli. Key words: SNP, A. nobilis, Green synthesis, marine biofilm, E. coli, B. subtilis the synthesis of nanoparticles. The living plants are Introduction considerably preferred for biosynthesis of silver Silver nanoparticles (SNPs) have attracted intensive nanoparticles due to their rich diversity of phytochemicals research interest because of their important applications that have strong antioxidant properties. Shankar et al. as antimicrobials in textile/fabric industry and plastic (2004), Chandran et al.
  • Floral Structure and Systematics in Four Orders of Rosids, Including a Broad Survey of floral Mucilage Cells

    Floral Structure and Systematics in Four Orders of Rosids, Including a Broad Survey of floral Mucilage Cells

    Pl. Syst. Evol. 260: 199–221 (2006) DOI 10.1007/s00606-006-0443-8 Floral structure and systematics in four orders of rosids, including a broad survey of floral mucilage cells M. L. Matthews and P. K. Endress Institute of Systematic Botany, University of Zurich, Switzerland Received November 11, 2005; accepted February 5, 2006 Published online: July 20, 2006 Ó Springer-Verlag 2006 Abstract. Phylogenetic studies have greatly ened mucilaginous inner cell wall and a distinct, impacted upon the circumscription of taxa within remaining cytoplasm is surveyed in 88 families the rosid clade, resulting in novel relationships at and 321 genera (349 species) of basal angiosperms all systematic levels. In many cases the floral and eudicots. These cells were found to be most structure of these taxa has never been compared, common in rosids, particulary fabids (Malpighi- and in some families, even studies of their floral ales, Oxalidales, Fabales, Rosales, Fagales, Cuc- structure are lacking. Over the past five years we urbitales), but were also found in some malvids have compared floral structure in both new and (Malvales). They are notably absent or rare in novel orders of rosids. Four orders have been asterids (present in campanulids: Aquifoliales, investigated including Celastrales, Oxalidales, Stemonuraceae) and do not appear to occur in Cucurbitales and Crossosomatales, and in this other eudicot clades or in basal angiosperms. paper we attempt to summarize the salient results Within the flower they are primarily found in the from these studies. The clades best supported by abaxial epidermis of sepals. floral structure are: in Celastrales, the enlarged Celastraceae and the sister relationship between Celastraceae and Parnassiaceae; in Oxalidales, the Key words: androecium, Celastrales, Crossoso- sister relationship between Oxalidaceae and Con- matales, Cucurbitales, gynoecium, Oxalidales.

  • Maui County Planting Plan Third Edition

    MAUI COUNTY PLANTING PLAN THIRD EDITION Maui County Arborist Committee MAUI COUNTY PLANTING PLAN—THIRD EDITION IT’S ALL ABOUT SHADE! UH Maui College Science Parking Lot, E. H. Rezents photograph, taken January 2011. This document has been researched, written and coordinated for the Maui County Arborist Committee By Ernest H. Rezents Professor Emeritus Agriculture, University of Hawaii Maui College Certified Arborist, International Society of Arboriculture Registered Consulting Arborist, American Society of Consulting Arborists September 1, 1991, First Edition July 20, 1994, Second Edition December 2000, Second Edition Reprinted March 9, 2016, Third Edition Maui County Planting Plan—Third Edition MAUI COUNTY ARBORIST COMMITTEE – 2016 Kimberly Thayer, Chair Heather A. K. Heath, Vice Chair Jackie Brainard Casey A. Foster, ISA* Certified Arborist Alex Haller William G. Jacintho, ISA* Certified Arborist William R. Myrter Jean A. Pezzoli, PhD Chris Reynolds Ex-Officio Members Maui County Corporation Council Maui County Parks and Recreation Department Maui County Planning Department Maui County Public Works Department Maui County Water Department Maui County Arborist *International Society of Arboriculture Maui County Planting Plan—Third Edition MAYOR'S MESSAGE Maui County Planting Plan—Third Edition ACKNOWLEDGEMENTS The author wishes to thank the following individuals and organizations for their support and contributions that made possible the publication of the Maui County Planting Plan. Robert (Bob) Hobdy for his assistance with plant scientific names and characteristics, exceptional tree research, and the Maui County Island maps with planting zones. Philip Thomas, a former Database Administrator with the Hawaii Ecosystems at Risk project (HEAR), for assisting with plant database storage and formatting chapter tables.

  • Ornamental Garden Plants of the Guianas, Part 4

    Bromeliaceae Epiphytic or terrestrial. Roots usually present as holdfasts. Leaves spirally arranged, often in a basal rosette or fasciculate, simple, sheathing at the base, entire or spinose- serrate, scaly-lepidote. Inflorescence terminal or lateral, simple or compound, a spike, raceme, panicle, capitulum, or a solitary flower; inflorescence-bracts and flower-bracts usually conspicuous, highly colored. Flowers regular (actinomorphic), mostly bisexual. Sepals 3, free or united. Petals 3, free or united; corolla with or without 2 scale-appendages inside at base. Stamens 6; filaments free, monadelphous, or adnate to corolla. Ovary superior to inferior. Fruit a dry capsule or fleshy berry; sometimes a syncarp (Ananas ). Seeds naked, winged, or comose. Literature: GENERAL: Duval, L. 1990. The Bromeliads. 154 pp. Pacifica, California: Big Bridge Press. Kramer, J. 1965. Bromeliads, The Colorful House Plants. 113 pp. Princeton, New Jersey: D. Van Nostrand Company. Kramer, J. 1981. Bromeliads.179pp. New York: Harper & Row. Padilla, V. 1971. Bromeliads. 134 pp. New York: Crown Publishers. Rauh, W. 1919.Bromeliads for Home, Garden and Greenhouse. 431pp. Poole, Dorset: Blandford Press. Singer, W. 1963. Bromeliads. Garden Journal 13(1): 8-12; 13(2): 57-62; 13(3): 104-108; 13(4): 146- 150. Smith, L.B. and R.J. Downs. 1974. Flora Neotropica, Monograph No.14 (Bromeliaceae): Part 1 (Pitcairnioideae), pp.1-658, New York: Hafner Press; Part 2 (Tillandsioideae), pp.663-1492, New York: Hafner Press; Part 3 (Bromelioideae), pp.1493-2142, Bronx, New York: New York Botanical Garden. Weber, W. 1981. Introduction to the taxonomy of the Bromeliaceae. Journal of the Bromeliad Society 31(1): 11-17; 31(2): 70-75.
  • Legume Phylogeny and Classification in the 21St Century: Progress, Prospects and Lessons for Other Species-Rich Clades

    Legume Phylogeny and Classification in the 21St Century: Progress, Prospects and Lessons for Other Species-Rich Clades

    Zurich Open Repository and Archive University of Zurich Main Library Strickhofstrasse 39 CH-8057 Zurich www.zora.uzh.ch Year: 2013 Legume phylogeny and classification in the 21st century: progress, prospects and lessons for other species-rich clades Legume Phylogeny Working Group ; Bruneau, Anne ; Doyle, Jeff J ; Herendeen, Patrick ; Hughes, Colin E ; Kenicer, Greg ; Lewis, Gwilym ; Mackinder, Barbara ; Pennington, R Toby ; Sanderson, Michael J ; Wojciechowski, Martin F ; Koenen, Erik Posted at the Zurich Open Repository and Archive, University of Zurich ZORA URL: https://doi.org/10.5167/uzh-78167 Journal Article Published Version Originally published at: Legume Phylogeny Working Group; Bruneau, Anne; Doyle, Jeff J; Herendeen, Patrick; Hughes, Colin E; Kenicer, Greg; Lewis, Gwilym; Mackinder, Barbara; Pennington, R Toby; Sanderson, Michael J; Wojciechowski, Martin F; Koenen, Erik (2013). Legume phylogeny and classification in the 21st century: progress, prospects and lessons for other species-rich clades. Taxon, 62(2):217-248. TAXON 62 (2) • April 2013: 217–248 LPWG • Legume phylogeny and classification REVIEWS Legume phylogeny and classification in the 21st century: Progress, prospects and lessons for other species-rich clades The Legume Phylogeny Working Group1 This paper was compiled by Anne Bruneau,2 Jeff J. Doyle,3 Patrick Herendeen,4 Colin Hughes,5 Greg Kenicer,6 Gwilym Lewis,7 Barbara Mackinder,6,7 R. Toby Pennington,6 Michael J. Sanderson8 and Martin F. Wojciechowski9 who were equally responsible and listed here in alphabetical order only, with contributions from Stephen Boatwright,10 Gillian Brown,11 Domingos Cardoso,12 Michael Crisp,13 Ashley Egan,14 Renée H. Fortunato,15 Julie Hawkins,16 Tadashi Kajita,17 Bente Klitgaard,7 Erik Koenen,5 Matt Lavin18, Melissa Luckow,3 Brigitte Marazzi,8 Michelle M.
  • Horticulture Nursery Management

    Horticulture Nursery Management

    YASHWANTRAO CHAVAN MAHARASHTRA OPEN UNIVERSITY Resource Book on Horticulture Nursery Management Developed Under National Agricultural Innovation Project, Indian Council of Agricultural Research, New Delhi - 110012. Yashwantrao Chavan Maharashtra Open University Resource Book on Horticulture Nursery Management Index Unit 1: Introduction to Horticulture Nursery Management 1 Unit 2: Plant Propagation Methods 16 Unit 3: Plant Nutrition and its Management in Nursery 42 Unit 4: Plant Protection in Nursery Management 69 Unit 5: Management Practices in Horticulture Nursery 94 Unit 6: Mass Production of Nursery Plants-1 111 Unit 7: Mass Production of Nursery Plants-2 133 Unit 8: Ornamental Horticulture Nursery 164 Unit 9: Plant Library Concepts and Operations 192 Unit 10: Economics and Government Regulations in Horticulture Nursery Management 226 FUNDING ORGANIZATION: NATIONAL AGRICULTURAL INNOVATION PROJECT INDIAN COUNCIL OF AGRICULTURAL RESEARCH, NEW DELHI 110012. PARTNER INSTITUTION: SCHOOL OF AGRICULTURAL SCIENCES YASHWANTRAO CHAVAN MAHARASHTRA OPEN UNIVERSITY, NASHIK 422222. RESEARCH PROJECT: INNOVATIONS IN TECHNOLOGY MEDIATED LEARNING: AN INSTITUTIONAL CAPACITY BUILDING IN USING REUSABLE LEARNING OBJECTS IN AGRO-HORTICULTURE. PROGRAM ADVISORY COMMITTEE: 1. Dr. Surya Gunjal, Director, School of Agricultural Sciences, YCMOU, Nashik-422 222. 2. Dr. Dattaprasad Waskar, Head, Department of Horticulture, Marathwada Krishi Vidyapeeth, Parabhani. 3. Dr. Vijay Dod, Head, Department of Horticulture, Dr. Panjabrao Deshmukh Krishi Vidyapeeth, Akola. 4. Dr. Bhimraj Bhujbal, Ex. Professor of Horticulture, Mahatma Phule Krishi Vidyapeeth, Rahuri. 5. Dr. S. N. Ambad, Professor of Horticulture, College of Agriculture, Pune. 6. Mr. Hemraj Rajput, Subject Matter Specialist, Krishi Vigyan Kendra, YCMOU, Nashik. 7. Mr. Purushottam Hendre, Subject Matter Specialist, Krishi Vigyan Kendra, Babhaleswar, Ahmednagar. 8. Mr. Nitin Thoke, Subject Matter Specialist, Krishi Vigyan Kendra, YCMOU, Nashik.