Basil Dolce Fresca

Total Page:16

File Type:pdf, Size:1020Kb

Basil Dolce Fresca BASIL DOLCE FRESCA Ocimum basilicum BASIL PERSIAN Ocimum basilicum BEAN MASCOTTE Phaseolus vulgaris BEAN SEYCHELLES Phaseolus vulgaris BEET AVALANCHE Beta vulgaris BROCCOLI ARTWORK F1 Brassica oleracea Italica BRUSSELS SPROUTS HESTIA F1 Brassica oleracea CABBAGE KATARINA F1 Brassica oleracea (Capitata group) CHIVES, GARLIC GEISHA Allium tuberosum CUCUMBER PARISIAN GHERKIN F1 Cucumis sativus CUCUMBER PICK A BUSHEL F1 Cucumis sativus CUCUMBER SALADMORE BUSH F1 Cucumis sativus EGGPLANT PATIO BABY F1 Solanum melongena FENNEL ANTARES F1 Foeniculum vulgare KALE PRIZM F1 Brassica oleracea (Acephala Group) KOHLRABI KONAN F1 Brassica oleracea LETTUCE SANDY Lactuca sativa MELON MELEMON F1 Cucumis melo L. MIZUNA RED KINGDOM F1 Brassica juncea OKRA CANDLE FIRE F1 Abelmoschus esculentus ONION, BUNCHING WARRIOR Allium fistulosusm OREGANO CLEOPATRA Origanum syriaca PAK CHOI BOPAK F1 Brassica rapa chinensis PEA PATIO PRIDE Pisum sativum PEPPER AJI RICO F1 Capsicum baccatum PEPPER CHILI PIE F1 Capsicum annuum PEPPER CORNITO GIALLO F1 Capsicum annuum PEPPER EMERALD FIRE F1 Capsicum annuum PEPPER ESCAMILLO F1 Capsicum annuum PEPPER FLAMING FLARE F1 Capsicum annuum PEPPER GIANT RISTRA F1 Capsicum annuum PEPPER HOT SUNSET F1 Capsicum annuum PEPPER MAD HATTER F1 Capsicum baccatum PEPPER MAMA MIA GIALLO F1 Capsicum annuum PEPPER PRETTY N SWEET F1 Capsicum annuum PEPPER SWEET SUNSET F1 Capsicum annuum PEPPER SWEETIE PIE F1 Capsicum annuum PEPPER SERRANO FLAMING JADE F1 Capsicum annuum PUMPKIN CINDERELLA'S CARRIAGE F1 Cucurbita maxima PUMPKIN PEPITAS F1 Cucurbita pepo PUMPKIN SUPER MOON F1 Cucurbita maxima RADISH RIVOLI Raphanus sativus RADISH ROXANNE F1 Raphanus sativus RADISH SWEET BABY F1 Raphanus sativus SQUASH BOSSA NOVA F1 Cucurbita pepo SQUASH BUTTERSCOTCH F1 Cucurbita moschata SQUASH HONEYBABY F1 Cucurbita moschata SQUASH SUGARETTI F1 Cucurbita pepo STRAWBERRY DELIZZ F1 Fragaria F. x ananassa TOMATO CANDYLAND RED Solanum lycopersicum TOMATO CHEF’S CHOICE PINK F1 Solanum lycopersicum TOMATO CHEF'S CHOICE GREEN F1 Solanum lycopersicum TOMATO CHEF'S CHOICE ORANGE F1 Solanum lycopersicum TOMATO CHEF’S CHOICE YELLOW F1 Solanum lycopersicum TOMATO FANTASTICO F1 Solanum lycopersicum TOMATO JASPER F1 Solanum lycopersicum TOMATO MIDNIGHT SNACK F1 Solanum lycopersicum TOMATO MOUNTAIN MERIT F1 Solanum lycopersicum TOMATO PATIO CHOICE YELLOW F1 Solanum lycopersicum WATERMELON GOLD IN GOLD F1 Citrullus lanatus WATERMELON HARVEST MOON F1 Citrullus lanatus WATERMELON MINI LOVE F1 Citrullus lanatus .
Recommended publications
  • Buffalo Gourd (Family Cucurbitaceae, Cucurbita Foetidissima)
    Buffalo Gourd (Family Cucurbitaceae, Cucurbita foetidissima) By Gerald R Noonan PhD May 2013 © May 2013 Buffalo Gourds are a common sight along the trails near the San Pedro House and in many other parts of SPRNCA. They grow as a prostate vine that spreads along the ground and may grow up to 20 feet long. The leaves are relatively large, up to approximately a foot in length, grayish green above and whitish beneath. The triangular shaped leaves have fine teeth along the margins and are born on relatively long stalks. During approximately May to August, yellow flowers appear. They are funnel shaped, five-lobed, about 4 inches long, and have the basic ribbed and with veins. The flowers open very early in the day and are pollinated by bees. Pollinated flowers each produce a gourd that is approximately 4 inches long, round, and predominantly dark green but with light stripes. The gourds eventually mature to an even yellow color and with continued exposure to the sun become whitish in appearance. Buffalo Gourds are perennial, die back in the winter, and then grow back from the large root when weather becomes warmer. The triangular shaped leaves distinguish this plant from the other two gourd producing species of vines that occur in SPRNCA. Finger-leaved Gourds differ by having central silvery white markings on the tops of the five narrow fingerlike segments of each leaf. Melon Loco plants differ by having leaves that are roundish or kidney shaped, approximately 2-6 inches wide, and with irregular jagged edges or pleats. Buffalo Gourds occur in roadsides and in dry or sandy areas.
    [Show full text]
  • University of Florida Thesis Or Dissertation Formatting
    GENETICS AND EVOLUTION OF MULTIPLE DOMESTICATED SQUASHES AND PUMPKINS (Cucurbita, Cucurbitaceae) By HEATHER ROSE KATES A DISSERTATION PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY UNIVERSITY OF FLORIDA 2017 © 2017 Heather Rose Kates To Patrick and Tomás ACKNOWLEDGMENTS I am grateful to my advisors Douglas E. Soltis and Pamela S. Soltis for their encouragement, enthusiasm for discovery, and generosity. I thank the members of my committee, Nico Cellinese, Matias Kirst, and Brad Barbazuk, for their valuable feedback and support of my dissertation work. I thank my first mentor Michael J. Moore for his continued support and for introducing me to botany and to hard work. I am thankful to Matt Johnson, Norman Wickett, Elliot Gardner, Fernando Lopez, Guillermo Sanchez, Annette Fahrenkrog, Colin Khoury, and Daniel Barrerra for their collaborative efforts on the dissertation work presented here. I am also thankful to my lab mates and colleagues at the University of Florida, especially Mathew A. Gitzendanner for his patient helpfulness. Finally, I thank Rebecca L. Stubbs, Andrew A. Crowl, Gregory W. Stull, Richard Hodel, and Kelly Speer for everything. 4 TABLE OF CONTENTS page ACKNOWLEDGMENTS .................................................................................................. 4 LIST OF TABLES ............................................................................................................ 9 LIST OF FIGURES .......................................................................................................
    [Show full text]
  • UNIVERSITY of CALIFORNIA, SAN DIEGO Pollinator Effectiveness Of
    UNIVERSITY OF CALIFORNIA, SAN DIEGO Pollinator Effectiveness of Peponapis pruinosa and Apis mellifera on Cucurbita foetidissima A Thesis submitted in partial satisfaction of the requirements for the degree Master of Science in Biology by Jeremy Raymond Warner Committee in charge: Professor David Holway, Chair Professor Joshua Kohn Professor James Nieh 2017 © Jeremy Raymond Warner, 2017 All rights reserved. The Thesis of Jeremy Raymond Warner is approved and it is acceptable in quality and form for publication on microfilm and electronically: ________________________________________________________________ ________________________________________________________________ ________________________________________________________________ Chair University of California, San Diego 2017 iii TABLE OF CONTENTS Signature Page…………………………………………………………………………… iii Table of Contents………………………………………………………………………... iv List of Tables……………………………………………………………………………... v List of Figures……………………………………………………………………………. vi List of Appendices………………………………………………………………………. vii Acknowledgments……………………………………………………………………... viii Abstract of the Thesis…………………………………………………………………… ix Introduction………………………………………………………………………………. 1 Methods…………………………………………………………………………………... 5 Study System……………………………………………..………………………. 5 Pollinator Effectiveness……………………………………….………………….. 5 Data Analysis……..…………………………………………………………..….. 8 Results…………………………………………………………………………………... 10 Plant trait regressions……………………………………………………..……... 10 Fruit set……………………………………………………...…………………... 10 Fruit volume, seed number,
    [Show full text]
  • Cucurbitaceae”
    1 UF/IFAS EXTENSION SARASOTA COUNTY • A partnership between Sarasota County, the University of Florida, and the USDA. • Our Mission is to translate research into community initiatives, classes, and volunteer opportunities related to five core areas: • Agriculture; • Lawn and Garden; • Natural Resources and Sustainability; • Nutrition and Healthy Living; and • Youth Development -- 4-H What is Sarasota Extension? Meet The Plant “Cucurbitaceae” (Natural & Cultural History of Cucurbits or Gourd Family) Robert Kluson, Ph.D. Ag/NR Ext. Agent, UF/IFAS Extension Sarasota Co. 4 OUTLINE Overview of “Meet The Plant” Series Introduction to Cucubitaceae Family • What’s In A Name? Natural History • Center of origin • Botany • Phytochemistry Cultural History • Food and other uses 5 Approach of Talks on “Meet The Plant” Today my talk at this workshop is part of a series of presentations intended to expand the awareness and familiarity of the general public with different worldwide and Florida crops. It’s not focused on crop production. Provide background information from the sciences of the natural and cultural history of crops from different plant families. • 6 “Meet The Plant” Series Titles (2018) Brassicaceae Jan 16th Cannabaceae Jan 23rd Leguminaceae Feb 26th Solanaceae Mar 26th Cucurbitaceae May 3rd 7 What’s In A Name? Cucurbitaceae the Cucurbitaceae family is also known as the cucurbit or gourd family. a moderately size plant family consisting of about 965 species in around 95 genera - the most important for crops of which are: • Cucurbita – squash, pumpkin, zucchini, some gourds • Lagenaria – calabash, and others that are inedible • Citrullus – watermelon (C. lanatus, C. colocynthis) and others • Cucumis – cucumber (C.
    [Show full text]
  • Coile, Nancy C
    THE PALMETTO,Winter 1992, Page5 after-school snack for American young- is native to Central America. Common (Duchesne) Poiret: butternut, pumpkin, sters is the peanut-butter-and-jelly green beans are grown as a winter veg- and winter crookneck. sandwich. etable throughout the state, commer- In winter, squashes are grown com- Corn, Zea mays l., is a grain or cereal cially as a winter vegetable in south mercially in south Florida. native to Mexico. In other English- Florida. Squash casserole made from yellow speaking countries, "corn" refers to any The Phaseo/us genus and Stropho- crookneck squash is a favorite of many grain (e.g., wheat), while Zea mays is styles genus of beans can be found Southerners, while many others disdain called "maize". growing wild in Florida. If they had been squash in any form. There are five kinds of corn: pop, flint, selected by the native Florida Indians What Southerner could long survive dent, flour, and sweet corn. Sweet corn for cultivation, perhaps we would havea without butterbeans and cornbread, is the kind grown in Florida throughout different bean as one of our foods! chowchow on the side, squash casserole, the state. Zellwood in Orange County has Beanflowers are mostly self-pollinating slices of tomato and Cayenne peppers, an annual sweet corn festival, scheduled and thus cherished cultivars "come true" and sweet potato souffle? How wou Id we when the corn gets ripe. when seedsare savedto replant. Beans get through Thanksgiving without turkey "Indian corn" has variously colored are a good source of protein, iron, and (another New World food), cranberry kernels and comes in flint or flour B vitamins.When eatenwith corn, all the sauce, cornbread dressing (not"stuffing"! varieties.
    [Show full text]
  • Resistance to Three Distinct Begomovirus Species in the Agronomical Superior Tropical Pumpkin Line AVPU1426 Developed at the World Vegetable Center
    agronomy Article Resistance to Three Distinct Begomovirus Species in the Agronomical Superior Tropical Pumpkin Line AVPU1426 Developed at the World Vegetable Center Narinder P. S. Dhillon 1,*, Supornpun Srimat 1, Suwannee Laenoi 1, Anjana Bhunchoth 2, Bencharong Phuangrat 2, Nuchnard Warin 2, Rungnapa Deeto 2, Orawan Chatchawankanphanich 2, Kriskamol Na Jom 3, Sudathip Sae-tan 3, Suk-Woo Jang 4, Hyungjun Noh 5, Roland Schafleitner 6 , Yuan-Li Chan 7 , Belén Picó 8, Cristina Sáez 8 and Lawrence Kenyon 7 1 World Vegetable Center, East and Southeast Asia, Kasetsart University, Kamphaeng Saen 73140, Thailand; [email protected] (S.S.); [email protected] (S.L.) 2 National Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency (NSTDA), Khlong Luang 12120, Thailand; [email protected] (A.B.); [email protected] (B.P.); [email protected] (N.W.); [email protected] (R.D.); [email protected] (O.C.) 3 Department of Food Science and Technology, Faculty of Agro-Industry, Kasetsart University, Bangkok 10900, Thailand; [email protected] (K.N.J.); [email protected] (S.S.-t.) 4 National Institute of Horticultural & Herbal Science, Rural Development Administration, 370, Nongsaengmyeong-ro, Deockjin-gu, Jeonju-si 54874, Korea; [email protected] 5 Citation: Dhillon, N.P.S.; Srimat, S.; National Agrobiodiversity Center, National Institute of Agricultural Sciences, Rural Development Laenoi, S.; Bhunchoth, A.; Phuangrat, Administration, 370, Nongsaengmyeong-ro, Deockjin-gu, Jeonju-si 54874, Korea; [email protected] 6 B.; Warin, N.; Deeto, R.; Biotechnology, World Vegetable Center, 60 Yi-Min Liao, Shanhua, Tainan 74151, Taiwan; roland.schafl[email protected] Chatchawankanphanich, O.; Jom, 7 Virology, World Vegetable Center, 60 Yi-Min Liao, Shanhua, Tainan 74151, Taiwan; K.N.; Sae-tan, S.; et al.
    [Show full text]
  • Assessment Report on Cucurbita Pepo L., Semen Based on Article 16D(1), Article 16F and Article 16H of Directive 2001/83/EC As Amended (Traditional Use)
    20 November 2012 EMA/HMPC/136022/2010 Committee on Herbal Medicinal Products (HMPC) Assessment report on Cucurbita pepo L., semen Based on Article 16d(1), Article 16f and Article 16h of Directive 2001/83/EC as amended (traditional use) Final Herbal substance(s) (binomial scientific name of Cucurbita pepo L., semen the plant, including plant part) Herbal preparation(s) a) Comminuted herbal substance b) Soft extract (DER 15-25:1), extraction solvent ethanol 92% m/m c) Dry extract (DER 15-30:1) extraction solvent ethanol 60% v/v d) Fatty oil Pharmaceutical forms Herbal substance or herbal preparations in solid dosage form for oral use Rapporteur Ewa Widy-Tyszkiewicz Assessor(s) Ewa Widy-Tyszkiewicz Irena Matławska Wiesława Bylka 7 Westferry Circus ● Canary Wharf ● London E14 4HB ● United Kingdom Telephone +44 (0)20 7418 8400 Facsimile +44 (0)20 7523 7051 E -mail [email protected] Website www.ema.europa.eu An agency of the European Union © European Medicines Agency, 2013. Reproduction is authorised provided the source is acknowledged. Table of contents Table of contents ................................................................................................................... 2 1. Introduction ....................................................................................................................... 3 1.1. Description of the herbal substance(s), herbal preparation(s) or combinations thereof .. 3 1.2. Information about products on the market in the Member States ............................. 10 Regulatory status overview
    [Show full text]
  • Cucurbita Pepo – Semen
    Cucurbita pepo – semen Kürbissamen Pumpkin seeds General information Cucurbita pepo L. is classified as a fruit of the Cucurbitaceae family, of which the seeds are used (Semen Cucurbitae). Pumpkin originates from Mexico and Texas. From there, pumpkin was in- troduced to Europe, and today pumpkin is grown worldwide, in particular in Austria (Styria), followed by Hungary and China as main suppliers. Pumpkin is an annual plant with procumbent or climbing stalks. The seeds are dried and used as a whole. The individual seed measures 7 to 15 mm in length, depending on the variety of the crop. It has an oval shape, rounded on the one end and pointed on the other. The top and bot- tom side has a characteristic rim around the margin. Depending on the variety, the seed has a bright grey to greenish-grey colour. The surface often has a grey-green thin skin layer. In central Europe, the flowering period lasts from June until August. The raw material for Anklam Extrakt originates mainly from Austria and is produced under controlled cultivation by experienced contract partners. Pharmacopoeia and other monographs DAB, HMPC, ESCOP, WHO Commission E 2 Functional properties Since the Middle Ages, pumpkin seeds have been used to treat kidney and bladder problems, irritable bladder syndrome, and as anti-worm drug. According to the Community herbal monograph Cucurbita pepo L., semen is traditionally used for the relief of lower urinary tract symptoms related to benign prostatic hyperplasia or related to an overactive bladder, after serious conditions have been excluded by a medical doctor. Several studies provide evidence for these areas of application.
    [Show full text]
  • Cucurbit Seed Production
    CUCURBIT SEED PRODUCTION An organic seed production manual for seed growers in the Mid-Atlantic and Southern U.S. Copyright © 2005 by Jeffrey H. McCormack, Ph.D. Some rights reserved. See page 36 for distribution and licensing information. For updates and additional resources, visit www.savingourseeds.org For comments or suggestions contact: [email protected] For distribution information please contact: Cricket Rakita Jeff McCormack Carolina Farm Stewardship Association or Garden Medicinals and Culinaries www.carolinafarmstewards.org www.gardenmedicinals.com www.savingourseed.org www.savingourseeds.org P.O. Box 448, Pittsboro, NC 27312 P.O. Box 320, Earlysville, VA 22936 (919) 542-2402 (434) 964-9113 Funding for this project was provided by USDA-CREES (Cooperative State Research, Education, and Extension Service) through Southern SARE (Sustainable Agriculture Research and Education). Copyright © 2005 by Jeff McCormack 1 Version 1.4 November 2, 2005 Cucurbit Seed Production TABLE OF CONTENTS Scope of this manual .............................................................................................. 2 Botanical classification of cucurbits .................................................................... 3 Squash ......................................................................................................................... 4 Cucumber ................................................................................................................... 15 Melon (Muskmelon) .................................................................................................
    [Show full text]
  • (Cucurbita Spp.) How to Save Squash Seeds
    How to Grow Squash (Cucurbita spp.) There are four species of domesticated squash that are commonly grown in gardens: winter squash, pumpkin, summer squash, and gourd.. All four species are essentially cultivated in the same manner but members of the different species will not cross with one another, allowing a seed saver to grow multiple squash species at the same time. Time of Planting: Sow seeds outdoors after danger of frost has passed in the spring, or start from seed indoors and transplant out in the spring. Spacing Requirements: Create 12 inch diameter hills 6 inches apart. Plant 6-8 seeds per hill and later thin to 3-4 plants per hill. Sow seeds 1 inch deep. Time to Germination: 5 to 10 days Special Considerations: When growing squash for seed, hand-pollination is recommended. Common Pests and Diseases (and how to manage): Common pests include aphids and slugs. Common diseases include powdery mildew, downy mildew, and cucumber mosaic virus. Watch plants carefully for signs of this virus - yellow mottling, puckering of leaves, and rotting fruit, and remove plants from the garden. Do not place infected plants in the compost pile that you use for your garden. Aphids can carry the virus, so you may want to consider pest control methods to control aphids in the garden. Harvest (when and how): As there are four different species in the squash family, harvest time varies by species and variety. Yellow squash and zucchini should be cut with a knife or pruners, leaving about ½-1 inch of stalk on the fruit. Other types of squash, like pumpkins and gourds, can be harvested when the stem turns brown.
    [Show full text]
  • A New Variety of Cold-Resistant and Early Maturing Cucurbita Maxima
    HORTSCIENCE 54(10):1860–1863. 2019. https://doi.org/10.21273/HORTSCI14090-19 tion seeds were obtained by a mass selection method, resulting in a stable homozygous inbred line named 2B-2-3; this variety grows A New Variety of Cold-resistant vigorously and has strong disease resistance, short internodes, and medium-sized leaves, and Early Maturing Cucurbita with a grayish-green color. The first female flower appears at around the seventh node maxima ‘Jianbao’ of the main vine. The fruit is flat and round with green skin, has a horizontal and verti- Yang Chen cal diameter of 15 · 10 cm, produces Agricultural Bio-Resources Research Institute, Fujian Academy of Agricultural yellowish-brown seeds, weighs 1.0 kg per Sciences, Fuzhou 350003, China fruit, and has golden yellow flesh, i.e., 2.5–3 cm in thickness. S0 generation seeds of the Xianzhi Zhou male parent 2A-3-4 of ‘Jianbao’ pumpkin Agricultural Bio-Resources Research Institute, Fujian Academy of were obtained in the Winter of 2003 through self-fertilization of ‘Japanese Silver World’ Agricultural Sciences, Fuzhou 350003, China; and Fuzhou Tropical Crop kabocha (named Riben Yinshijie Nangua in Scientific Observation Experimental Station of Ministry of Agriculture and Chinese, C. maxima, F1 hybrids); from the Rural Affairs, Fuzhou 350003, China Spring of 2004 to the Autumn of 2007, continuous self-pollination was used to ob- Yongsheng Lin and Yucan Zhang tain S1-S4 generation seeds; S4 generation Agricultural Bio-Resources Research Institute, Fujian Academy of Agricultural seeds were planted in Spring 2008 and 2009, Sciences, Fuzhou 350003, China and S5-S6 generation seeds were obtained by a mass selection method, resulting in a stable Additional index words.
    [Show full text]
  • Pre-Inoculation by an Arbuscular Mycorrhizal Fungus Enhances Male Reproductive Output of Cucurbita Foetidissima
    Int. J. Plant Sci. 161(4):683±689. 2000. Copyright is not claimed for this article. PRE-INOCULATION BY AN ARBUSCULAR MYCORRHIZAL FUNGUS ENHANCES MALE REPRODUCTIVE OUTPUT OF CUCURBITA FOETIDISSIMA Rosemary L. Pendleton1 USDA Forest Service, Rocky Mountain Research Station, Shrub Sciences Laboratory, 735 North 500 East, Provo, Utah 84606, U.S.A. Male and female reproductive output of Cucurbita foetidissima, a gynodioecious native perennial, was examined in a 2-yr greenhouse/outplanting study. Plants were divided into three treatment groups: (1) a low- phosphorus (P) soil mix control; (2) a low-P soil mix with the addition of mycorrhizal inoculum (Glomus intraradices); and (3) a high-P soil mix. Plants were outplanted after one summer of greenhouse growth and harvested in the fall of the second year. High-P treatment plants grew best during the ®rst year, having signi®cantly longer vines than either low-P treatment. By the end of the second year, however, treatment had no signi®cant effect on either aboveground biomass or weight of the tuberous storage root. Tissue concen- trations of N and P also did not differ signi®cantly with treatment. Male reproductive output was signi®cantly enhanced by the addition of mycorrhizal inoculum, resulting in a threefold increase over control plants in the production of male ¯owers. In contrast, treatment had no signi®cant effect on aspects of female reproductive output, including number of female ¯owers, percent fruit set, total fruit biomass produced by the plant, or mean fruit weight. Fruit production was correlated with vegetative aboveground biomass and is likely re¯ective of carbon status.
    [Show full text]