Buy Calathea Zebrina - Plant Online at Nurserylive | Best Plants at Lowest Price

Total Page:16

File Type:pdf, Size:1020Kb

Buy Calathea Zebrina - Plant Online at Nurserylive | Best Plants at Lowest Price Buy calathea zebrina - plant online at nurserylive | Best plants at lowest price Calathea zebrina - Plant There are many species in the Calathea plant family, but one of the most popular is the calathea zebra plant (Calathea zebrina). Rating: Not Rated Yet Price Variant price modifier: Base price with tax Price with discount ?449 Salesprice with discount Sales price ?449 Sales price without tax ?449 Discount Tax amount Ask a question about this product Description With this purchase you will get: 01 Calathea Zebrina Plant 01 5 inch (13 cm) Grower Round Plastic Pot (Black) Description for Calathea Zebrina Plant height: 5 - 9 inches (12 - 23 cm) 1 / 3 Buy calathea zebrina - plant online at nurserylive | Best plants at lowest price Plant spread: 4 - 8 inches (10 - 21 cm) Calathea zebra plants are natives of Brazil and their bright green leaves can be boldly striped in white, yellow or pink in a striking feather-like pattern that is sure to catch the eye. Common name(s): Zebra plant Flower colours: - Bloom time: - Max reachable height: 3-6 feet Difficulty to grow: Moderately easy Planting and care Sunlight: Diffused light Soil: Holds moisture but is also well draining. A good potting mix consists of one part soil, two parts peat moss and two parts perlite. Water: Keep soil moist throughout the growing season. Temperature: Temperatures above 55 degrees F (13 degrees C) to survive and temperatures around 70 degrees F (21 degrees C) to thrive. Fertilizer: Fertilize occasionally with a half strength solution of liquid fertilizer. Caring for Calathea Zebrina Wet feet is probably the major cause of failure when growing zebra indoor plants. A lack of water, however, will cause leaves to curl. Humidity is the next problem to be conquered when growing zebras indoors. Plants should be misted several times a week. If the environment is particularly dry, which often occurs during the winter months, rest the pot on a shallow tray filled with gravel and fill the tray with water without its touching the pot. One of the first signs of low humidity is brown edges along the leaves. Typical uses of Calathea Zebrina Special features: Ornamental use: They are showpiece to any indoor garden. References http://www.gardeningknowhow.com/houseplants/zebra-plant/calathea-zebra-houseplant.htm http://www.ourhouseplants.com/plants/calathea 2 / 3 Buy calathea zebrina - plant online at nurserylive | Best plants at lowest price Reviews Tuesday, 28 January 2020 Worth Money. Good Product Nitika Gupta Tuesday, 19 November 2019 Grown in coco-peat and hence requires less water while being relatively insect free. Nisha Malik Saturday, 16 November 2019 Got the plant in excellent shape. Looks great! chandrashekhar More reviews 3 / 3 Powered by TCPDF (www.tcpdf.org).
Recommended publications
  • Seed Germination and Genetic Structure of Two Salvia Species In
    Seed germination and genetic structure of two Salvia species in response to environmental variables among phytogeographic regions in Jordan (Part I) and Phylogeny of the pan-tropical family Marantaceae (Part II). Dissertation Zur Erlangung des akademischen Grades Doctor rerum naturalium (Dr. rer. nat) Vorgelegt der Naturwissenschaftlichen Fakultät I Biowissenschaften der Martin-Luther-Universität Halle-Wittenberg Von Herrn Mohammad Mufleh Al-Gharaibeh Geb. am: 18.08.1979 in: Irbid-Jordan Gutachter/in 1. Prof. Dr. Isabell Hensen 2. Prof. Dr. Martin Roeser 3. Prof. Dr. Regina Classen-Bockhof Halle (Saale), den 10.01.2017 Copyright notice Chapters 2 to 4 have been either published in or submitted to international journals or are in preparation for publication. Copyrights are with the authors. Just the publishers and authors have the right for publishing and using the presented material. Therefore, reprint of the presented material requires the publishers’ and authors’ permissions. “Four years ago I started this project as a PhD project, but it turned out to be a long battle to achieve victory and dreams. This dissertation is the culmination of this long process, where the definition of “Weekend” has been deleted from my dictionary. It cannot express the long days spent in analyzing sequences and data, battling shoulder to shoulder with my ex- computer (RIP), R-studio, BioEdite and Microsoft Words, the joy for the synthesis, the hope for good results and the sadness and tiredness with each attempt to add more taxa and analyses.” “At the end, no phrase can describe my happiness when I saw the whole dissertation is printed out.” CONTENTS | 4 Table of Contents Summary ..........................................................................................................................................
    [Show full text]
  • Response of Marantaceae and Pteridophytes Potted Plants for Purification of Formaldehyde Polluted Air
    Vol. 8(47), pp. 6027-6033, 5 December, 2013 DOI: 10.5897/AJAR12.857 African Journal of Agricultural ISSN 1991-637X ©2013 Academic Journals Research http://www.academicjournals.org/AJAR Full Length Research Paper Response of Marantaceae and Pteridophytes potted plants for purification of formaldehyde polluted air Junhui Zhou1*, Baochao Yue1, Shuijian Chen1 and Hui-lian Xu2 1College of Horticulture and Landscape Architecture, Zhongkai University of Agriculture and Engineering, Fangzhi Road, Haizhu District, Guangzhou 510225, China. 2International Nature Farming Research Center, 5632 Hata, Matsumoto, Nagano 390-1401, Japan. Accepted 22 April, 2013 Ten plants from Marantaceae families and ten plants from Pteridophytes were tested for their abilities of removing formaldehyde (FDH) in the air. Each of the plants was placed in a 1.0 ×1.0 × 0.8 m glass box filled with FDH for seven days with the initial concentration as 15 mg m-3. These plants such as Neottopteris nidus cv. Volulum, Calathea lubbersiana showed the most resistant ability to FDH damage; species such as Calathea ornata, Calathea setosa, Calathea freddy, and Calathea roseo-picta showed more resistant ability to FDH damage; species such as N. nidus, Pteris fauriei, Pteris ensiformis cv. Victoriae, Pteris cretica cv. Albolineata, Nephrolepis cordifolia, Cyclosorus parasiticus, Blechnum orientale, Maranta bicolor, and Calathea zebrina showed the worst resistance to FDH. The absorption of FDH by plants in the glass box chamber was found especially apparent during the first three days. The fastest purification of FDH was found in species such as C. zebrina, M. punctatum,and the slowest was found in species such as C.
    [Show full text]
  • Atoll Research Bulletin No. 503 the Vascular Plants Of
    ATOLL RESEARCH BULLETIN NO. 503 THE VASCULAR PLANTS OF MAJURO ATOLL, REPUBLIC OF THE MARSHALL ISLANDS BY NANCY VANDER VELDE ISSUED BY NATIONAL MUSEUM OF NATURAL HISTORY SMITHSONIAN INSTITUTION WASHINGTON, D.C., U.S.A. AUGUST 2003 Uliga Figure 1. Majuro Atoll THE VASCULAR PLANTS OF MAJURO ATOLL, REPUBLIC OF THE MARSHALL ISLANDS ABSTRACT Majuro Atoll has been a center of activity for the Marshall Islands since 1944 and is now the major population center and port of entry for the country. Previous to the accompanying study, no thorough documentation has been made of the vascular plants of Majuro Atoll. There were only reports that were either part of much larger discussions on the entire Micronesian region or the Marshall Islands as a whole, and were of a very limited scope. Previous reports by Fosberg, Sachet & Oliver (1979, 1982, 1987) presented only 115 vascular plants on Majuro Atoll. In this study, 563 vascular plants have been recorded on Majuro. INTRODUCTION The accompanying report presents a complete flora of Majuro Atoll, which has never been done before. It includes a listing of all species, notation as to origin (i.e. indigenous, aboriginal introduction, recent introduction), as well as the original range of each. The major synonyms are also listed. For almost all, English common names are presented. Marshallese names are given, where these were found, and spelled according to the current spelling system, aside from limitations in diacritic markings. A brief notation of location is given for many of the species. The entire list of 563 plants is provided to give the people a means of gaining a better understanding of the nature of the plants of Majuro Atoll.
    [Show full text]
  • FY 20 GPCA Feb. Plant Sale List
    Feb. 29, 2020 Tropicals/Houseplant List Plants highlighted in Orange are available in limited quantities. Pet Safe Botanical Name Common Name Light Water Additional Care Info (Cats/Dogs) Native to Java and New Guinea. Prune back by half every spring to promote bushier growth. Acalypha Wilkesiana Full Sun to Part Copper Leaf Plant Medium Reduce watering in Winter but do not allow the Yes 'Hot Pink Swirl' Shade plant to dry out. Keep warm, prefers temperature of 65-80F year round. Native to the Philippines and Malaysia. Can grow as an indoor container plant. Thrives when kept near a South or West facing window, the soil is consistently moist and is fertilized in Full Sun to Part Spring and Summer with a slow-release Adonidia merrillii Christmas Palm Medium Yes Shade fertilizer designed specifically for palms. Can grow to 6 ft indoors.Known commonly as the 'Christmas Palm' because when grown outdoors in its native habitat, it produces fruits that become bright red in the Winter. Though the plant is native to Brazil, this hybrid was developed in Florida. The plant blooms only once though the flowering bract can last up to 5 months. The flowering plant will die but Aechmea 'Blue Blue Tango Urn Full Sun to Part produce side shoots that can be propagated. Medium Yes Tango" Plant Shade Reduce watering in winter but leave a small pool of water in the central cup and replace water periodically. Does best when indoor temperatures are low 60sF at night and 75-80 F during the day. Native to Asia.
    [Show full text]
  • Updating Material of Study Subject Flower
    LANDSCAPING FACULTY DEPARTMENT OF GARDENING AND AGRICULTURAL TECHNOLOGIES STUDY PROGRAMME: GARDENING TERRITORIES AND THEIR DESIGN (code) 653H93002 LAIMA MARKEVIČIENĖ UPDATING MATERIAL OF STUDY SUBJECT FLOWER GROWING (IN GREENHOUSES) ATNAUJINIMO MEDŽIAGA PROJEKTUI TO SUPPORT THE PROJECT ‘INTERNATIONAL DEVELOPMENT IN THE ENGINEERING STUDY FIELD PROGRAMMES AND THEIR UPDATING BY CUSTOMIZING TO MEET COURSE DELIVERY NEEDS OF INTERNATIONAL STUDENTS AT THE LANDSCAPING FACULTY OF KAUNO KOLEGIJA/UNIVERSITY OF APPLIED SCIENCES‘ (VP1-2.2-ŠMM-07-K-02-045) Mastaičiai 2012 Educational Institution: Kauno Kolegija / University of Applied Sciences Study Programme: Growing Territories and their Design Study Subject Programme FLOWER GROWING 1. The Annotation. Study Field Subject, in which decorative, morphological and bioecological characteristics of annual, biennial, perennial, bulbous, room: greenhouses and interior flowers are analyzed. Knowledge and abilities when evaluating and applying them in growing territories and interior are given. 2. The Aim of the Programme. To describe and evalaute grass decorative plants, by choosing them for growing territories and interiors of different types, to develope the skills of plants researches and holistic attitude when performing professional solutions. 3.The Length in Credits and Hours: Structure Length Practical Study in Lectures, Consultations, Individual In total: works, Assessment subject ECTS hours hours work, hours hours hours title credits Flower growing 12 69 72 19 160 320 1. Outside 6 29 39 12 80 160 Examination 2. Room 6 40 33 7 80 160 Examination 4.Prerequisites: Chemistry and Plants Protection, Fundamentals of Agronomy, Information Technologies, Foreign Language. 5. Links between Learning Outcomes and Intended Study Subject Outcomes and Student Achievement Assessment Methods: Learning outcomes Intended study subject Student achievement Study methods outcomes assessment methods Lecture, telling, explanation, Testing, frontal inquiry, 1.
    [Show full text]
  • Exotic Plants in the Cibodas Botanic Gardens Remnant Forest: Inventory and Cluster Analysis of Several Environmental Factors
    Buletin Kebun Raya Vol. 17 No. 1, Januari 2014 EXOTIC PLANTS IN THE CIBODAS BOTANIC GARDENS REMNANT FOREST: INVENTORY AND CLUSTER ANALYSIS OF SEVERAL ENVIRONMENTAL FACTORS Inventarisasi Tumbuhan Eksotik di Lokasi Hutan Sisa Kebun Raya Cibodas dan Analisis Kluster Faktor-Faktor Lingkungannya Decky Indrawan Junaedi Cibodas Botanic Gardens t Indonesian Institute of Sciences, Sindanglaya Cipanas Cianjur 43253, PO. BOX 19 SDL Email: [email protected] Abstrak Dilakukan inventarisasi tumbuhan eksotik di empat lokasi hutan sisa Kebun Raya Cibodas (KRC) dan analisis kluster untuk melihat peranan faktor lingkungan terhadap keberadaan spesies eksotik. Diperoleh sebanyak 26 spesies tumbuhan eksotik di dalam empat hutan sisa KRC. Spesies ini berasal dari 23 marga dan 14 suku. Analisis kluster menunjukkan bahwa pengelompokan nilai faktor lingkungan yang dianalisis bersinergi dengan kelimpahan populasi spesies eksotik tersebut di dalam hutan sisa KRC. Kesesuaian antara hasil analisis kluster dan kelimpahan populasi tumbuhan eksotik menunjukkan peranan faktor lingkungan terhadap keberadaan dan kelimpahan jenis tumbuhan eksotik di hutan sisa KRC. Hasil informasi inventarisasi tumbuhan eksotik di hutan sisa KRC merupakan informasi dasar yang dapat digunakan oleh pengelola KRC dalam rangka pengelolaan tumbuhan eksotik terutama yang bersifat invasif. Perlu dilakukan kajian lanjutan tentang tumbuhan eksotik di hutan sisa KRC untuk menentukan spesies eksotik mana yang harus diprioritaskan pengelolaannya untuk meminimalisasi dampak tumbuhan eksotik dan invasif terhadap ekosiostem alami di KRC. Kata kunci: analisis vegetasi, hutan sisa, Kebun Raya Cibodas, konservasi, tumbuhan invasif Abstract Due to potential impact of invasive alien (exotic) species to the natural ecosystems, inventory of exotic species in the Cibodas Botanic Gardens (CBG) remnant forest area is an urgent need for CBG.
    [Show full text]
  • Use Style: Paper Title
    Volume 6, Issue 2, February – 2021 International Journal of Innovative Science and Research Technology ISSN No:-2456-2165 Advent of Calathea Plants and Its Taxonomy Amidst Covid19 Amera Casan- Malaco Sultan Kudarat State University SKSU- Tacurong City, Philippines Abstract:- People worldwide are turning to the garden to earning themselves the nicknames "plantitos and plantitas," convert their boredom and anxiety during the pandemic. or plant uncles and aunties. (Inquirer.net November 12, Calathea plants are one of those trending plants that 2020) One of the trending indoor plants is Calathea, also most plant collectors collect due to their attractive leaf known as a Prayer Plant because of its nocturnal venation. Studying its taxonomy helps to preserve its movements; at night, the plant's leaves fold upward, giving species. Thus the study entitled Advent of Calathea the appearance of praying hands. Calathea (syn. Goeppertia) Plants and Its Taxonomy Amidst Covid 19 aims to is a genus of plants belonging to the family Marantaceae. determine Calathea plants' taxonomy through the There are several dozen species in this genus. Native to the Leafsnap mobile application. Also, to assess its mental tropical Americas, many of the species are popular as pot and health benefits to those plant collectors. Ten plants due to their decorative leaves and colorful respondents were randomly selected, and pictures of inflorescences in some species. They are commonly called calathea plants were taken to process and identified in Calathes's or (like their relatives) prayer-plants. The leaf snap mobile applications. Seventeen varieties of Calathea houseplant has plenty of benefits that will make it a Calathea plants were identified from the ten favorite addition to your jungle.
    [Show full text]
  • Comparative Analysis of Whole Flower Transcriptomes in the Zingiberales
    1/25/2019 Summary of the talk California State University East Bay Department of Biological Sciences Almeida Lab - Introduction: - The Zingiberales order - Flower morphology in the Zingiberales - Hypothesis Comparative analysis of whole flower transcriptomes in the Zingiberales - Methods: data collection and analysis Ana Almeida; Alma Piñeyro-Nelson; Roxana Yockteng; Chelsea Specht - Results and discussion - OrthoFinder Ana Almeida - Blastn to oil palm - Transcription factors - Concluding remarks January 2019 Diversification of flower morphology The Zingiberales order Marantaceae g inger inger clade Cannaceae Zingiberaceae Costaceae b Lowiaceae anana group Strelitziaceae Heliconiaceae Musaceae (Saas et al. 2016, PeerJ) Flower morphology in the Musaceae The Zingiberales order Musa basjoo Marantaceae g inger inger clade Cannaceae Orchidantha Heliconia Zingiberaceae Costaceae b Lowiaceae anana group Strelitziaceae Musa Bird-of-paradise Heliconiaceae Musaceae 1 cm (Saas et al. 2016, PeerJ) 1 1/25/2019 The Zingiberales order Flower morphology in the Zingiberales Canna Cardamom Reduction to 1 fertile stamen Marantaceae g Petaloid staminodes inger inger clade Cannaceae Fusion of Reduction to ½ staminodes fertile stamen Costus Tumeric Zingiberaceae Costaceae b Lowiaceae anana group Ginger Strelitziaceae Musa basjoo Costus spicatus Canna sp. Calathea Heliconiaceae Musaceae (Saas et al. 2016, PeerJ) (modif from Specht et al. 2012, Bot Rev) Flower morphology in the Zingiberales Working hypothesis Mechanisms of floral Marantaceae g diversification
    [Show full text]
  • Plant Surfaces: Structures and Functions for Biomimetic Innovations
    Nano-Micro Lett. (2017) 9:23 DOI 10.1007/s40820-016-0125-1 REVIEW Plant Surfaces: Structures and Functions for Biomimetic Innovations Wilhelm Barthlott1 . Matthias Mail1,2 . Bharat Bhushan3 . Kerstin Koch4 Received: 21 October 2016 / Accepted: 4 December 2016 Ó The Author(s) 2016. This article is published with open access at Springerlink.com Abstract An overview of plant surface structures and their evolution is presented. It combines surface chemistry and architecture with their functions and refers to possible biomimetic applications. Within some 3.5 billion years biological species evolved highly complex multifunctional surfaces for interacting with their environments: some 10 million living prototypes (i.e., estimated number of existing plants and animals) for engineers. The complexity of the hierarchical structures and their functionality in biological organisms surpasses all abiotic natural surfaces: even superhydrophobicity is restricted in nature to living organisms and was probably a key evolutionary step with the invasion of terrestrial habitats some 350–450 million years ago in plants and insects. Special attention should be paid to the fact that global environmental change implies a dramatic loss of species and with it the biological role models. Plants, the dominating group of organisms on our planet, are sessile organisms with large multifunctional surfaces and thus exhibit particular intriguing features. Superhydrophilicity and superhydrophobicity are focal points in this work. We estimate that superhydrophobic plant leaves (e.g., grasses) comprise in total an area of around 250 million km2, which is about 50% of the total surface of our planet. A survey of structures and functions based on own examinations of almost 20,000 species is provided, for further references we refer to Barthlott et al.
    [Show full text]
  • Terrariums and Vivariums
    Visit us on the Web: www.gardeninghelp.org Terrariums and Vivariums History Terrariums, vivariurns, and aquariums are microenvironments under glass. Terrariums were popularized in the 19th century when a London surgeon, Dr. Daniel Ward, accidently created a garden in a jar. A natural history hobbyist, Dr. Ward wanted to see an adult sphinx moth hatch from a chrysalis. He buried the cocoon in damp soil in a glass jar and covered the jar with a metal lid. Some grass and a fern sprouted from the soil, and Dr. Ward lost interest in the cocoon. The plants thrived in the jar without additional water and no influx of fresh air. After four years, while Dr. Ward was absent from his home, the metal lid rusted and rain entered the jar causing the plants to rot. In 1832, Dr. Ward decided to ship some glass-contained plants to Sydney, Australia, by way of Cape Good Hope. The containers of ferns and grasses, lashed to the ship’s deck during the eight-month voyage, arrived intact and healthy. Dr. Ward’s Australian colleagues returned the glass containers to London with equal success. After Dr. Ward published his findings the glass-contained planters became known as Wardian cases. The development of Wardian cases opened up intercontinental plant trade. Indian teas, Chinese bananas and Brazilian rubber trees were introduced in compatible climates around the world. Exotic, tropical plants became available in Europe and America. Dr. Ward’s efforts provided a global selection of plant material for the indoor gardener, and an effective method for maintaining delicate plant species.
    [Show full text]
  • Reproduction and Identification of Root-Knot Nematodes on Perennial Ornamental Plants in Florida
    REPRODUCTION AND IDENTIFICATION OF ROOT-KNOT NEMATODES ON PERENNIAL ORNAMENTAL PLANTS IN FLORIDA By ROI LEVIN A THESIS PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE UNIVERSITY OF FLORIDA 2005 Copyright 2005 by Roi Levin ACKNOWLEDGMENTS I would like to thank my chair, Dr. W. T. Crow, and my committee members, Dr. J. A. Brito, Dr. R. K. Schoellhorn, and Dr. A. F. Wysocki, for their guidance and support of this work. I am honored to have worked under their supervision and commend them for their efforts and contributions to their respective fields. I would also like to thank my parents. Through my childhood and adult years, they have continuously encouraged me to pursue my interests and dreams, and, under their guidance, gave me the freedom to steer opportunities, curiosities, and decisions as I saw fit. Most of all, I would like to thank my fiancée, Melissa A. Weichert. Over the past few years, she has supported, encouraged, and loved me, through good times and bad. I will always remember her dedication, patience, and sacrifice while I was working on this study. I would not be the person I am today without our relationship and love. iii TABLE OF CONTENTS page ACKNOWLEDGMENTS ................................................................................................. iii LIST OF TABLES............................................................................................................. vi LIST OF FIGURES ..........................................................................................................
    [Show full text]
  • 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.
    [Show full text]