Pyganic Gardening Specimen Label
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Approved Plant List 10/04/12
FLORIDA The best time to plant a tree is 20 years ago, the second best time to plant a tree is today. City of Sunrise Approved Plant List 10/04/12 Appendix A 10/4/12 APPROVED PLANT LIST FOR SINGLE FAMILY HOMES SG xx Slow Growing “xx” = minimum height in Small Mature tree height of less than 20 feet at time of planting feet OH Trees adjacent to overhead power lines Medium Mature tree height of between 21 – 40 feet U Trees within Utility Easements Large Mature tree height greater than 41 N Not acceptable for use as a replacement feet * Native Florida Species Varies Mature tree height depends on variety Mature size information based on Betrock’s Florida Landscape Plants Published 2001 GROUP “A” TREES Common Name Botanical Name Uses Mature Tree Size Avocado Persea Americana L Bahama Strongbark Bourreria orata * U, SG 6 S Bald Cypress Taxodium distichum * L Black Olive Shady Bucida buceras ‘Shady Lady’ L Lady Black Olive Bucida buceras L Brazil Beautyleaf Calophyllum brasiliense L Blolly Guapira discolor* M Bridalveil Tree Caesalpinia granadillo M Bulnesia Bulnesia arboria M Cinnecord Acacia choriophylla * U, SG 6 S Group ‘A’ Plant List for Single Family Homes Common Name Botanical Name Uses Mature Tree Size Citrus: Lemon, Citrus spp. OH S (except orange, Lime ect. Grapefruit) Citrus: Grapefruit Citrus paradisi M Trees Copperpod Peltophorum pterocarpum L Fiddlewood Citharexylum fruticosum * U, SG 8 S Floss Silk Tree Chorisia speciosa L Golden – Shower Cassia fistula L Green Buttonwood Conocarpus erectus * L Gumbo Limbo Bursera simaruba * L -
Well-Known Plants in Each Angiosperm Order
Well-known plants in each angiosperm order This list is generally from least evolved (most ancient) to most evolved (most modern). (I’m not sure if this applies for Eudicots; I’m listing them in the same order as APG II.) The first few plants are mostly primitive pond and aquarium plants. Next is Illicium (anise tree) from Austrobaileyales, then the magnoliids (Canellales thru Piperales), then monocots (Acorales through Zingiberales), and finally eudicots (Buxales through Dipsacales). The plants before the eudicots in this list are considered basal angiosperms. This list focuses only on angiosperms and does not look at earlier plants such as mosses, ferns, and conifers. Basal angiosperms – mostly aquatic plants Unplaced in order, placed in Amborellaceae family • Amborella trichopoda – one of the most ancient flowering plants Unplaced in order, placed in Nymphaeaceae family • Water lily • Cabomba (fanwort) • Brasenia (watershield) Ceratophyllales • Hornwort Austrobaileyales • Illicium (anise tree, star anise) Basal angiosperms - magnoliids Canellales • Drimys (winter's bark) • Tasmanian pepper Laurales • Bay laurel • Cinnamon • Avocado • Sassafras • Camphor tree • Calycanthus (sweetshrub, spicebush) • Lindera (spicebush, Benjamin bush) Magnoliales • Custard-apple • Pawpaw • guanábana (soursop) • Sugar-apple or sweetsop • Cherimoya • Magnolia • Tuliptree • Michelia • Nutmeg • Clove Piperales • Black pepper • Kava • Lizard’s tail • Aristolochia (birthwort, pipevine, Dutchman's pipe) • Asarum (wild ginger) Basal angiosperms - monocots Acorales -
What to Eat on the Autoimmune Protocol
WHAT TO EAT ON THE AUTOIMMUNE PROTOCOL All the foods listed here are great to include in your It’s time to create an epidemic of - health. And it starts with learning ents that will help regulate your immune system and how to eat more nutrient-dense food. your hormones and provide the building blocks that your body needs to heal. You don’t need to eat all of these foods (it’s okay if snails, frog legs, and crickets aren’t your thing, and it’s okay if you just can’t get kangaroo meat or mizuna), but the idea is both to give Poultry innovative ways to increase variety and nutrient density • chicken • grouse • pigeon by exploring new foods. • dove • guinea hen • quail • duck • ostrich • turkey • emu • partridge (essentially, Red Meat • goose • pheasant any bird) • antelope • deer • mutton • bear • elk • pork • beaver • goat • rabbit • beef • hare • sea lion • • horse • seal • boar • kangaroo • whale • camel • lamb (essentially, • caribou • moose any mammal) Amphibians and Reptiles • crocodile • frog • snake • turtle 1 22 Fish* Shellfish • anchovy • gar • • abalone • limpet • scallop • Arctic char • haddock • salmon • clam • lobster • shrimp • Atlantic • hake • sardine • cockle • mussel • snail croaker • halibut • shad • conch • octopus • squid • barcheek • herring • shark • crab • oyster • whelk goby • John Dory • sheepshead • • periwinkle • bass • king • silverside • • prawn • bonito mackerel • smelt • bream • lamprey • snakehead • brill • ling • snapper • brisling • loach • sole • carp • mackerel • • • mahi mahi • tarpon • cod • marlin • tilapia • common dab • • • conger • minnow • trout • crappie • • tub gurnard • croaker • mullet • tuna • drum • pandora • turbot Other Seafood • eel • perch • walleye • anemone • sea squirt • fera • plaice • whiting • caviar/roe • sea urchin • • pollock • • *See page 387 for Selenium Health Benet Values. -
(Gardenia Jasminoides, Ellis) in Various Substrates Amended with Sulphur
36 Global Journal of Plant Ecophysiology, 3(2): 36-43, 2013 ISSN 2074-0891 This is a refereed journal and all articles are professionally screened and reviewed ORIGINAL ARTICLES Plant Growth And Flowering Of Cape Jasmine (Gardenia Jasminoides, Ellis) In Various Substrates Amended With Sulphur 1,2,4Tarek M.A. Soliman, 1Naiem E. El-Keltawi, 2,3Muhammad Ali Khan, 2Ma Nan, 2LingJun Zhao 1Department of Horticulture, Faculty of Agriculture, Assiut University, Assiut 71562, Egypt 2Department of Ornamental Horticulture and Landscape Architecture, China Agricultural University, Beijing 100193 China 3Agricultural Research Institute Tarnab, Peshawar, Pakistan 4Horticulture Research Institute. Agricultural Research Center. Giza. Egyptticulture Research Institute. Agricultural Research Center. Giza. Egypt ABSTRACT Growth and flower production of gardenia plant (Gardenia jasminoides, Ellis.) were studied to find out the appropriate growing media amended with sulphur. Rice straw, sawdust and clay used as growing substrates, were amended with four (0, 1/2, 1 and 2% w/w) levels of sulphur. The experiment was laid out in split-plot design using substrates as main plot and sulphur amendment in sub-plot with 4 replications. The experiment was carried out in successive two growing season in 2004/2005 and 2005/2006. The findings revealed that both growing media and sulphur amendment alone and in combination significantly affected vegetative and reproductive growth of gardenia plant. Rice straw was the best media followed clay and sawdust. Out of four 1 doses of sulphur amendment, /2% S application showed best result which was identically followed by 1% sulphur in most of the cases. However, considering the interaction effect, rice straw amended with 1% sulphur proved to be the best combination in producing tallest plant(34.69 cm), maximum number of leaves(70), widest stem (4.4 mm), maximum fresh shoot-root weight (37.46 g) and maximum dry shoot-root weight (12.83 g). -
Andean Tuber and Root Crops: Origin and Variability
1-118 ANDEAN TUBER AND ROOT CROPS: ORIGIN AND VARIABILITY -by- Jorge Leon IAIAS - Andean Zone The human occupancy of the Andean highlands is more than 10,000 years old. If the common theory is accepted that man came to America through the Bering strait and dispersed southwards, then the Andean highlands offered to early man a series of habitats that were somewhat similar to the northern part of Asia. The cool, barren punas were excellent hunting grounds. The auchenids: guanaco, nama, vicuna and alpaca, supplied him with abundant meat and furs. The open country covered with grass, in the belt between the 3000-4000 m., with clear streams and many caves, was probably the first area in which man settled permanently in the Andes. The remains of EI Inga in Ecuador and the caves of Lauricocha in Peru, show that hunting was the predominant activity of the Andean man 8000-6000 years ago. In the high Andes the frost-free period determine the growing season. Only few plants, grasses like Stipa, could grow continuously. The majority of the species have developed extensive subterranean organs, storage roots or tubers, which are permanent; during the frost-free season they put up few leaves and flowers, the latter comparatively large. AlI the aerial parts are eventualIy destroyed by frost, which marks the end of the growing period. In the tuber plants, the underground organs continue to grow for some period after the aerial parts have died; they are ready to sprout again as soon as the frost disappears in the next growing season. -
Show Activity
A Mucogenic *Unless otherwise noted all references are to Duke, James A. 1992. Handbook of phytochemical constituents of GRAS herbs and other economic plants. Boca Raton, FL. CRC Press. Plant # Chemicals Total PPM Abelmoschus manihot Manioc Hibiscus 1 216.0 Abelmoschus esculentus Okra 1 120.0 Acacia nilotica Babul 1 Acacia farnesiana Opopanax; Sweet Acacia; Cassie; Huisache; Popinac 1 1292.0 Acacia decurrens Green Wattle 1 Acanthopanax gracilistylis Wu Chia Pi 1 38.0 Achillea millefolium Milfoil; Yarrow 3 Achyranthes bidentata Chaff Flower 2 102.0 Achyranthes aspera Chaff Flower 1 Aconitum carmichaelii Aconite; Fu-Tsu 1 26.0 Acorus calamus Flagroot; Myrtle Flag; Sweetflag; Sweetroot; Calamus; Sweet Calamus 1 Actaea racemosa Black Snakeroot; Black Cohosh 2 Actaea dahurica Sheng ma; Xing an sheng ma 1 Actinidia chinensis Kiwi 1 12.0 Aegle marmelos Bael de India; Bael fruit 1 Agathosma betulina Buchu; Honey Buchu; Mountain Buchu 1 168.0 Aglaonema commutatum Aglaonema aroid 1 Akebia quinata Chocolate Vine 1 20.0 Albizia julibrissin Mimosa 1 16.0 Aleurites moluccana Indian Walnut; Varnishtree; Candlenut Tree; Lumbangtree; Candleberry; Candlenut 1 Alisma plantago-aquatica Water Plantain; Ze-Xie; Mud Plantain; Tse-Hsieh 1 136.0 Allium schoenoprasum Chives 1 950.0 Allium sativum var. sativum Garlic 2 194.94 Allium cepa Shallot; Onion 2 650.0 Allium ampeloprasum Kurrat; Elephant Garlic 2 765.6 Alocasia macrorrhiza Giant Taro 2 102.0 Aloe vera Bitter Aloes; Aloe 2 1546.0 Aloe spp. Aloe 2 Alpinia galanga Siamese Ginger; Greater Galangal; Languas 1 216.0 Althaea officinalis Marshmallow; White Mallow 3 80000.0 Amaranthus spinosus Spiny pigweed 1 Amaranthus sp. -
Chapter 1 Definitions and Classifications for Fruit and Vegetables
Chapter 1 Definitions and classifications for fruit and vegetables In the broadest sense, the botani- Botanical and culinary cal term vegetable refers to any plant, definitions edible or not, including trees, bushes, vines and vascular plants, and Botanical definitions distinguishes plant material from ani- Broadly, the botanical term fruit refers mal material and from inorganic to the mature ovary of a plant, matter. There are two slightly different including its seeds, covering and botanical definitions for the term any closely connected tissue, without vegetable as it relates to food. any consideration of whether these According to one, a vegetable is a are edible. As related to food, the plant cultivated for its edible part(s); IT botanical term fruit refers to the edible M according to the other, a vegetable is part of a plant that consists of the the edible part(s) of a plant, such as seeds and surrounding tissues. This the stems and stalk (celery), root includes fleshy fruits (such as blue- (carrot), tuber (potato), bulb (onion), berries, cantaloupe, poach, pumpkin, leaves (spinach, lettuce), flower (globe tomato) and dry fruits, where the artichoke), fruit (apple, cucumber, ripened ovary wall becomes papery, pumpkin, strawberries, tomato) or leathery, or woody as with cereal seeds (beans, peas). The latter grains, pulses (mature beans and definition includes fruits as a subset of peas) and nuts. vegetables. Definition of fruit and vegetables applicable in epidemiological studies, Fruit and vegetables Edible plant foods excluding -
Non-Invasive Landscape Plants with Fragrant Flowers
Ornamentals and Flowers Feb. 2010 OF-46 Non-invasive Landscape Plants with Fragrant Flowers Patti Clifford1 and Kent Kobayashi2 1Hawaii Invasive Species Council, 2CTAHR Department of Tropical Plant and Soil Sciences eeds are not friends to my garden. They cause To have a plant screened by one of the Hawaii Inva- more work and displace the flowers or vegetables sive Species Council’s weed risk assessment specialists, thatW I am trying to grow. But I do understand that in e-mail [email protected]. our multicultural world, a weed to one person may be a medicine, food, or ornamental to another. Plants have Characteristics of invasive plants many uses to humans; that is why we transport them with Many of the attributes that we appreciate in our garden us as we traverse the planet. and landscape plants contribute to their ability to invade In Hawai‘i, many of the native plants are endemic— natural and agricultural ecosystems. These include they are not found anywhere else in the world. This rarity • rapid growth has made them vulnerable to impacts from non-native • early maturity species. Some of the plants introduced here from other • heavy seed production regions become weeds and displace the native plants. • vegetative reproduction (i.e., pieces of roots, stems, While invasive weeds may cause trouble in my garden, or leaves can break off and grow into new plants; this they create havoc in Hawai‘i’s delicate native ecosystems. can happen when green waste or plant trimmings are Hawai‘i’s natural ecosystems have one of the worst discarded) weed problems in the world. -
A Selection of Flowering Shrubs and Trees for Color in Miami-Dade Landscapes
A Selection of Flowering Shrubs and Trees for Color in Miami-Dade Landscapes If no ‘Season for Flowering’ is indicated, flowering occurs periodically throughout the year (usually less so in cooler weather). If water needs are not shown (see key below: drought tolerance/need for moist soil), provide supplemental water once per week to established plants in prolonged hot dry conditions; reduce frequency during cooler winter weather. KEY: sm.tr - Small tree; lg.tr - Large tree; shr – Shrub; cl.sh - Climbing shrub (requires some support); m - Moist soil (limited drought tolerance); dr - Drought Tolerant; fs - Full sun; ss - Some shade. Shrub/Tree Season for Flowering WHITE Beaumontia grandiflora (cl.sh; fs) -> winter (Herald’s Trumpet)1 Brunfelsia jamaicensis (shr; ss; m) -> late fall – winter (Jamaica Raintree)1 Ceiba insignis (lg.tr; fs; dr) -> fall (White Silk Floss Tree) Cordia boissieri (sm.tr; fs; dr) (Texas white olive)2 Dombeya burgessiae (shr; fs) cream – pale pink -> late fall – winter (Apple Blossom, Pink Pear Blossom)1 Eranthemum nigrum (see E. pulchellum below) (Ebony) Euphorbia leucophylla (shr/sm.tr; fs) white/pink -> winter (Little Christmas Tree, Pascuita)1, 2 Fagrea ceylanica (shr/sm.tr; fs/ss; dr) (Ceylon Fagrea) 1,2 Gardenia taitensis (shr/sm.tr; fs; dr) (Tahitian Gardenia)1,2 Jacquinia arborea, J. keyensis (sm.tr/shr; fs; dr) -> spring – summer (Bracelet Wood)1 (Joewood) 1, 2 1 Fragrant 2 Adapts especially well to limestone Kopsia pruniformis (shr/sm.tr; fs/ss.)♣ (Java plum) Mandevilla boliviensis (cl.sh/ss) -> spring -
NLI Recommended Plant List for the Mountains
NLI Recommended Plant List for the Mountains Notable Features Requirement Exposure Native Hardiness USDA Max. Mature Height Max. Mature Width Very Wet Very Dry Drained Moist &Well Occasionally Dry Botanical Name Common Name Recommended Cultivars Zones Tree Deciduous Large (Height: 40'+) Acer rubrum red maple 'October Glory'/ 'Red Sunset' fall color Shade/sun x 2-9 75' 45' x x x fast growing, mulit-stemmed, papery peeling Betula nigra river birch 'Heritage® 'Cully'/ 'Dura Heat'/ 'Summer Cascade' bark, play props Shade/part sun x 4-8 70' 60' x x x Celtis occidentalis hackberry tough, drought tolerant, graceful form Full sun x 2-9 60' 60' x x x Fagus grandifolia american beech smooth textured bark, play props Shade/part sun x 3-8 75' 60' x x Fraxinus americana white ash fall color Full sun/part shade x 3-9 80' 60' x x x Ginkgo biloba ginkgo; maidenhair tree 'Autumn Gold'/ 'The President' yellow fall color Full sun 3-9 70' 40' x x good dappled shade, fall color, quick growing, Gleditsia triacanthos var. inermis thornless honey locust Shademaster®/ Skyline® salt tolerant, tolerant of acid, alkaline, wind. Full sun/part shade x 3-8 75' 50' x x Liriodendron tulipifera tulip poplar fall color, quick growth rate, play props, Full sun x 4-9 90' 50' x Platanus x acerifolia sycamore, planetree 'Bloodgood' play props, peeling bark Full sun x 4-9 90' 70' x x x Quercus palustris pin oak play props, good fall color, wet tolerant Full sun x 4-8 80' 50' x x x Tilia cordata Little leaf Linden, Basswood 'Greenspire' Full sun/part shade 3-7 60' 40' x x Ulmus -
High Population Density in Arracacha (Arracacia Xanthorrhiza Bancroft) Increase Radiation Interception, Yield, and Profitability 1
Agronomía Mesoamericana ISSN: 2215-3608 [email protected] Universidad de Costa Rica Costa Rica High population density in arracacha (Arracacia xanthorrhiza Bancroft) increase radiation interception, yield, 1 and profitability Quevedo-Amay, Yeison Mauricio; Villamil-Carvajal, Jorge Enrique; Garnica-Montaña, Johanna Paola; Montenegro-Ramos, Omar; Barragán-Quijano, Eduardo High population density in arracacha (Arracacia xanthorrhiza Bancroft) increase radiation interception, 1 yield, and profitability Agronomía Mesoamericana, vol. 32, no. 2, 2021 Universidad de Costa Rica, Costa Rica Available in: https://www.redalyc.org/articulo.oa?id=43766744005 DOI: https://doi.org/10.15517/am.v32i2.43281 © 2021 Agronomía Mesoamericana es desarrollada en la Universidad de Costa Rica bajo una licencia Creative Commons Atribución-NoComercial-SinDerivar 4.0 Internacional. Para más información escriba a [email protected], [email protected] This work is licensed under Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International. PDF generated from XML JATS4R by Redalyc Project academic non-profit, developed under the open access initiative Yeison Mauricio Quevedo-Amay, et al. High population density in arracacha (Arracacia xanthorrhiza... Artículo High population density in arracacha (Arracacia xanthorrhiza Bancro) increase 1 radiation interception, yield, and profitability Densidad poblacional alta en arracacha (Arracacia xanthorrhiza Bancro) aumenta la intercepción de la radiación, el rendimiento y la rentabilidad Yeison Mauricio Quevedo-Amay DOI: https://doi.org/10.15517/am.v32i2.43281 -
Taxonomy, Origin and Importance of the Apiaceae Family
1 TAXONOMY, ORIGIN AND IMPORTANCE OF THE APIACEAE FAMILY JEAN-PIERRE REDURON* Mulhouse, France The Apiaceae (or Umbelliferae) is a plant family comprising at the present time 466 genera and about 3800 species (Plunkett et al., 2018). It is distributed nearly worldwide, but is most diverse in temperate climatic areas, such as Eurasia and North America. It is quite rare in tropical humid regions where it is limited to high mountains. Mediterranean and arid climatic conditions favour high species diversification. The Apiaceae are present in nearly all types of habi- tats, from sea-level to alpine zones: aquatic biotopes, grasslands, grazed pas- tures, forests including their clearings and margins, cliffs, screes, rocky hills, open sandy and gravelly soils, steppes, cultivated fields, fallows, road sides and waste grounds. The largest number of genera, 289, and the largest generic endemism, 177, is found in Asia. There are 126 genera in Europe, but only 17 are en- demic. Africa has about the same total with 121 genera, where North Africa encompasses the largest occurrence of 82 genera, 13 of which are endemic. North and Central America have a fairly high level of diversity with 80 genera and 44 endemics, where South America accommodates less generic diversity with 35 genera, 15 of which are endemic. Oceania is home to 27 genera and 18 endemics (Plunkett et al., 2018). The Apiaceae family appears to have originated in Australasia (region including Australia, Tasmania, New Zealand, New Guinea, New Caledonia and several island groups), with this origin dated to the Late Cretaceous/ early Eocene, c.87 Ma (Nicolas and Plunkett, 2014).