Antibacterial Activity of Spent Substrate of Mushroom Pleurotus Ostreatus Enriched with Herbs
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Proposed Techniques to Supplement the Loss in Nutrient Cycling for Replanted Coffee Plantations in Vietnam
agronomy Article Proposed Techniques to Supplement the Loss in Nutrient Cycling for Replanted Coffee Plantations in Vietnam The Trinh Pham 1, Ngoc Hoi Nguyen 2 , Pham Nguyen Dong Yen 2, Tri Duc Lam 3 and Ngoc Thuy Trang Le 4,* 1 Department of Science and Technology in DakLak Province, 15A Truong Chinh, Buon Ma Thuot City 630000, Vietnam; [email protected] 2 Institute of Applied Materials Science, Vietnam Academy of Science and Technology, Ho Chi Minh City 700000, Vietnam; [email protected] (N.H.N.); [email protected] (P.N.D.Y.) 3 NTT Hi-Tech Institute, Nguyen Tat Thanh University, Ho Chi Minh City 700000, Vietnam; [email protected] 4 Institute of Research and Development, Duy Tan University, Danang 550000, Vietnam * Correspondence: [email protected] Received: 23 May 2020; Accepted: 23 June 2020; Published: 25 June 2020 Abstract: Nutrient cycling of the coffee ecosystem is often characterized by nutrient losses during the harvest, tree’s growth, leaching and erosion. The “Coffee Rejuvenation Strategies in Vietnam” has risked not being complete on schedule, with the low survival rate of seedlings on replanted soil, due to the nutrient loss and imbalance supplements after a long-term of monoculture and intensive cultivation. In this study, measures, including biochemical and organic treatments were applied to replanted coffee farm, in order to supplement the loss of nutrient cycling. Survival rate, growth indicators, and soil properties from the controls and treatments, were monitored and compared during the experimental periods. The results suggested the optimal tillage model as follow: Remove old coffee trees with their stumps and roots; liming 1.5 tons/ha; dry tillage soil for the first 6 months; Intercrop Mexican marigold (Tagetes erecta) with new coffee plants for the next 6 months; From the second year, apply 5 kg of microbial organic fertilizer /hole/year; bury 30 kg of green manure/hole/2–3 years; apply NPK fertilizers according to the governmental recommended procedure. -
Insecticidal Activity of Floral, Foliar, and Root Extracts of Tagetes Minuta
This file was created by scanning the printed publication. Errors identified by the software have been corrected; however, some errors may remain. STORED-PRODUCTENTOMOLOGY Insecticidal Activity of Floral, Foliar, and Root Extracts of .Tagetes minuta (Asterales: Asteraceae) Against Adult Mexican Bean Weevils (Coleoptera: Bruchidae) DAVID K. WEAVER,l CARL D. WELLS,2.3FLORENCE V. DUNKEL, WOLFGANG BERTSCH,2 SHARLENE E. SING,l AND SHOBHA SRIHARAN4 Department of Entomology, Montana State University, Bozeman, MT 59717 J. Econ. Entomol. 87(6): 1718-1725 (1994) ABSTRACT Experiments were conducted to determine speed of action and toxicities of extracts of Tagetes minuta L., a source of naturally occurring insecticidal compounds. LC50 values for male and female Mexican bean weevils, Zabrotes subfasciatus (Boheman), were determined for /loral, foliar, and root extracts of T. minuta. The 24-h LCso values ranged from 138 lJ-g/cm2 for males exposed to the root extract (most susceptible) to 803 wlJcm2 for females exposed to the foliar extract (least susceptible). Increasing the duration of exposure 2 to 48 h decreased all LCso values 20-30 lJ-g/cm • Males were more susceptible than females. The time to incapacitation for 50% of the test insects (IT 50) for floral and foliar extracts indicated fast-acting, volatile components, whereas the root extract data indicated slower-acting components, likely a result of the interaction of photophase with time- dependent efficacy. Floral and foliar extracts of T. minuta may be useful as insecticides for controlling stored-product pests. KEY WORDS Zabrotes subfasciatus, Tagetes minuta, extracts MARIGOLDS,Tagetes spp., are a useful intercrop extract was 8.1 mg/g for Rhyzopertha dominica in agriculture. -
Essential Oils in Food Preservation, Flavor and Safety
Essential Oils in Food Preservation, Flavor and Safety Edited by Victor R. Preedy Department of Nutrition and Dietetics, King's College London, London, UK • AMSTERDAM BOSTON • HEIDELBERG • LONDON • NEW YORK • OXFORD • PARIS SAN DIEGO • SAN FRANCISCO • SINGAPORE • SYDNEY • TOKYO ELSEVIER Academic Press is an imprint of Elsevier Contents Contributors xxiii Supercritical Fluid Extraction GC-MS (SFE Biography xxxi GC-MS) Involving Use of Multidimensional Preface xxxiii GC to Resolve Enantiomers for Essential Oils of Lavandula 12 Enantioselective Capillary Gas Chromatography Part I and Online Methods of Isotope Ratio Mass General Aspects Spectrometry 13 Enantioselective Capillary Gas Chromatography and Isotope Ratio Mass Spectrometry, 1. Essential Oils: What They Are and How Coupled Online with Capillary Gas the Terms Are Used and Defined Chromatography on an HP5 Column for Jose-Luis Rios Various Essential Oils 13 Online Gas Chromatography Pyrolysis Introduction 3 Isotope Ratio Mass Spectrometry An Historical Overview 3 (HRGC-P-IRMS) for the Flavor Compounds Concept and Definition 3 Decanal, Linalool, Linalyl Acetate, Variability of Essential Oils 4 E-2-Hexenal, and E-2-Hexenol in Presence and Functions in the Vegetable Essential Oils 13 Kingdom 4 Isotope Ratio Mass Spectrometry Online Essential Oils 4 Obtaining Coupled with Capillary Gas Control and 5 Analyses Chromatography (GC-Py-IRMS) 14 Chemical Composition 5 Gas Chromatography-Combustion-lsotope Terpenes 6 Ratio Mass Spectrometry (GC-C-IRMS), 6 Allyl phenols in Combination with GC-MS and GC Other Constituents 7 Flame Ionization Detector (FID) for Use of Essential Oils 7 Rosa damascene Essential Oil 14 Cosmetics 8 Headspace-Solid Phase Microextraction Medicine and Pharmaceutics 8 Coupled to GC-C-IRMS for Food 9 Citrus Oils 14 References 9 Multi Dimensional Gas Chromatography (MDGC) and GC-C-IRMS for Bitter Orange 2. -
Biodiversity Development Assessment Report Tweed Valley Hospital
81 Biodiversity Development Assessment Report Tweed Valley Hospital APPENDIX B. FLORISTIC AND VEGETATION INTEGRITY PLOT SURVEY FIELD RECORDS greencap.com.au Adelaide | Auckland | Brisbane | Canberra | Darwin | Melbourne | Newcastle | Perth | Sydney | Wollongong -This document has not been endorsed or approved by Office of Environment and Heritage or Muddy Boots Environmental Training- BAM Site Field Survey Form Site Sheet no: 1 of _____2 Survey Name Zone ID Recorders Date 1_ 5_ / 0_ 6_ / 1_ 8_ TVH Veg Zone 1 Damian Licari and Gina Minatel Zone Datum Plot Plot ID Photo # _5 _6 GDA 1994 19 dimensions 20m X 50m Easting Northing Midline IBRA region Burringbar-ConondaleIn m Ranges bearing 350 Magnetic o 5_ _55 _ _890 _ _ 687_ _ _ 39_ _ 27_ _ from 0 m Confidence: Vegetation Class Coastal Swamp Forest H M L Confidence: Plant Community Type EEC: tick 1064 Yes H M L Record easting and northing at 0 m on midline. Dimensions (Shape) of 0.04 ha base plot. BAM Attribute 2 Sum values BAM Attribute (1000 m plot) (400 m2 plot) DBH # Tree Stems Count # Stems with Hollows Trees 4 80 + cm 0 Shrubs 1 Count of Grasses etc. 2 50 79 cm 0 Native Richness Forbs 5 30 49 cm Present Ferns 3 0 20 29 cm present Other 1 10 19 cm Trees 30.3 present Sum of Shrubs 0.2 5 9 cm absent Cover of native Grasses etc. 10.5 < 5 cm n/a vascular present plants by Forbs 30.3 growth Length of logs (m) Tally space form group Ferns 253.50 50.4 >50 cm in length) Other 15 Counts apply when the number of tree stems within a when > 10 (eg. -
Anti–Oxidative and Anti–Inflammatory Effects of Tagetes Minuta Essential Oil in Activated Macrophages
Asian Pac J Trop Biomed 2014; 4(3): 219-227 219 Contents lists available at ScienceDirect Asian Pacific Journal of Tropical Biomedicine journal homepage: www.elsevier.com/locate/apjtb Document heading doi:10.1016/S2221-1691(14)60235-5 2014 by the Asian Pacific Journal of Tropical Biomedicine. All rights reserved. 襃 Anti-oxidative and anti-inflammatory effects of Tagetes minuta essential oil in activated macrophages 1 1 2 Parastoo Karimian , Gholamreza Kavoosi *, Zahra Amirghofran 1Biotechnology Institute, Shiraz University, Shiraz, 71441-65186, Iran 2Department of Immunology, Autoimmune Disease Research Center and Medicinal and Natural Products Chemistry Research Center, Shiraz University of Medical Sciences, Shiraz, Iran PEER REVIEW ABSTRACT Peer reviewer Objective: Tagetes minuta T. minuta To investigate antioxidant and anti-inflammatory effects of ( ) Hasan Salehi, University of Shiraz, essentialMethods: oil. T. minuta T. minuta Shiraz, Iran. In the present study essential oil was obtained from leaves of via E-mail: [email protected] hydro-distillation andT. minutathen was analyzed by gas chromatography-mass spectrometry. The anti- Comments oxidant capacity of essential oil was examined by measuring reactive oxygen,T. reactive minuta nitrogen species and hydrogen peroxide scavenging. The anti-inflammatory activity of TMO displayed an anti-oxidant essential αoil was determined through measuring NADH oxidase, inducible nitric oxide synthase property by scavenging superoxide, and TNF- mRNA expression in lipopolysacharide-stimulated murine macrophages using real- H2O2 and NO radicals, and reduced Results:time PCR. G oxidative stress. The decreased T. minutaas chromatography-mass spectrometry analysis indicated that the main components in ROS NOS (33 86%) E (19 92%) (16 15%) formation of and radicals in the β essential oil were dihydrotagetone . -
PESTICIDAL PLANT LEAFLET Aloe Ferox Mill
PESTICIDAL PLANT LEAFLET Aloe ferox Mill. ROYAL BOTANIC GARDENS Taxonomy and nomenclature Family: Xanthorrhoeaceae (formerly Asphodelaceae) Synonym(s): Aloe candelabrum A. Berger (1906) Vernacular/ common names : (English): Red aloe, bitter aloe, cape aloe (French): Aloes du Cap Distribution and habitat A. ferox is indigenous to South Africa and Lesotho, growing in the semi-arid open plains to rocky mountain slopes. In Kenya it is commonly cultivated in Nairobi gardens and its environs. It is distributed throughout the tropics and sub tropics where it grows as an ornamental or medicinal plant. It grows in a wide range of climatic conditions, but abundant on arid, rocky hillsides up to 1000 mo altitude, where mean temperature ranges from Botanical description 27-31 C and annual rainfall is 50-300 mm. A. ferox is a single-stemmed plant growing up to 2-5 m tall. The crown is a dense rosette of green to red-brown succulent leaves up to 1 m long and the stem is covered Uses in persistent dried leaves. Each leaf has brown spines There are two main useful products obtained from A. along the margins and often on the surfaces. The flowers ferox. Aloe gel comes from the leaf parenchyma, the are bisexual, about 10 cylindrical racemes on a branched white inner fleshy part. It drains from the leaf when cut panicle, long with dark orange stamens protruding from and is used for its cleansing, antiseptic, moisturizing the mouth. Some forms can have bright red, yellow or and anti-inflamatory properties. Aloe bitters, the dark white flowers. sap comes from between the green peel and the white jelly and are used as a laxative and to treat arthritis. -
Toxicity in Artemia Salina by Hydroalcoholic Extracts Of
367 A publication of CHEMICAL ENGINEERING TRANSACTIONS VOL. 79, 2020 The Italian Association of Chemical Engineering Online at www.cetjournal.it Guest Editors: Enrico Bardone, Antonio Marzocchella, Marco Bravi Copyright © 2020, AIDIC Servizi S.r.l. DOI: 10.3303/CET2079062 ISBN 978-88-95608-77-8; ISSN 2283-9216 Toxicity in Artemia Salina by Hydroalcoholic Extracts of Monocotyledonous and Dicotyledonous Varieties of Medicinal Plants from the Peruvian Amazon Ana N. Sandoval*a, Jhonny W. Valverde Flores,b, Kriss M. Callaa, Rafael A. Albaa, a a c d Herry Lloclla , Santos A. Sotero Armando G. Ismiño , Marco L. Salazar aUniversidad César Vallejo, 22201, Cacatachi, San Martín, Perú. bUniversidad Nacional Agraria La Molina,15024, Lima, Perú. cAsociación de Productores Jardines de Palma, 22236, Pongo de Caynarachi, San Martin, Perú. d Universidad Nacional de Trujillo, 13006, Trujillo, Perú. [email protected] Medicinal plants have been used since ancient times, acquiring broad interest in their healing properties due to their active compounds. The Peruvian Amazon rainforest has a great variety of flora, such as monocots ( Dracontium loretense Krause and Commelina diffusa) and dicotyledons (Dysphania ambrosioides, Malva sylvestris, Origanum vulgare, Bixa orellana, Pinus edulis, Jatropha curcas L, and Brunfelsia). The study aimed to evaluate the toxicity in saline artemia by hydroalcoholic extracts of leaves of medicinal plants of the Peruvian Amazon. A phytochemical analysis of the leaves of the medicinal plants was performed to identify their active components. For the hydroalcoholic extraction, 300 g of leaves were used and dried extracts were obtained at concentrations of 10, 100 and 1000 μL/mL. The toxicity of the extract of each plant species in 10 larvae of Artemia was evaluated by triplicate tests. -
Edible Flower and Herb and Pollinator Plant Varieties 2018
Edible Flower and Herb and Pollinator Plant Varieties 2018 Crop Type Variety Edible Flowers Alyssum Mixed Colors Edible Flowers Bachelor Buttons Polka Dot Edible Flowers Bellis English Daisy Strawberries and Cream Edible Flowers Bellis English Daisy Tasso Red Edible Flowers Borage Borago officinalis Borage Edible Flowers Calendula Solar Flashback Mix Edible Flowers Calendula Alpha Edible Flowers Calendula Resina Edible Flowers Calendula Neon Edible Flowers Calendula Triangle Flashback Edible Flowers Calendula Strawberry Blonde Edible Flowers Dianthus Everlast Lilac Eye Edible Flowers Dianthus Everlast Dark Pink Edible Flowers Dianthus Volcano Mix Edible Flowers Dianthus Dynasty Mix Edible Flowers Dianthus Everlast Edible Flowers Dianthus Pink Kisses Edible Flowers Marigold Lemon Gem Edible Flowers Marigold Tangerine Gem Edible Flowers Marigold Kilimanjaro White Edible Flowers Marigold Harlequin Edible Flowers Marigold Bonanza Deep Orange Edible Flowers Marigold Mister Majestic Edible Flowers Marigold Mexican Mint Edible Flowers Marigold Red Marietta Edible Flowers Marigold Bonanza Mix Edible Flowers Nasturtium Trailing Edible Flowers Nasturtium Alaska Edible Flowers Nasturtium Moonlight Edible Flowers Nasturtium Empress of India Edible Flowers Nasturtium Jewel Mix Edible Flowers Nigella Nigella damascena Perisan Jewels Edible Flowers Nigella Nigella sativa Black Cumin Edible Flowers Nigella Nigella hispanica Exotic Edible Flowers Sunflower Mammoth Edible Flower and Herb and Pollinator Plant Varieties 2018 Crop Type Variety Edible Flowers -
The Phytochemistry of Cherokee Aromatic Medicinal Plants
medicines Review The Phytochemistry of Cherokee Aromatic Medicinal Plants William N. Setzer 1,2 1 Department of Chemistry, University of Alabama in Huntsville, Huntsville, AL 35899, USA; [email protected]; Tel.: +1-256-824-6519 2 Aromatic Plant Research Center, 230 N 1200 E, Suite 102, Lehi, UT 84043, USA Received: 25 October 2018; Accepted: 8 November 2018; Published: 12 November 2018 Abstract: Background: Native Americans have had a rich ethnobotanical heritage for treating diseases, ailments, and injuries. Cherokee traditional medicine has provided numerous aromatic and medicinal plants that not only were used by the Cherokee people, but were also adopted for use by European settlers in North America. Methods: The aim of this review was to examine the Cherokee ethnobotanical literature and the published phytochemical investigations on Cherokee medicinal plants and to correlate phytochemical constituents with traditional uses and biological activities. Results: Several Cherokee medicinal plants are still in use today as herbal medicines, including, for example, yarrow (Achillea millefolium), black cohosh (Cimicifuga racemosa), American ginseng (Panax quinquefolius), and blue skullcap (Scutellaria lateriflora). This review presents a summary of the traditional uses, phytochemical constituents, and biological activities of Cherokee aromatic and medicinal plants. Conclusions: The list is not complete, however, as there is still much work needed in phytochemical investigation and pharmacological evaluation of many traditional herbal medicines. Keywords: Cherokee; Native American; traditional herbal medicine; chemical constituents; pharmacology 1. Introduction Natural products have been an important source of medicinal agents throughout history and modern medicine continues to rely on traditional knowledge for treatment of human maladies [1]. Traditional medicines such as Traditional Chinese Medicine [2], Ayurvedic [3], and medicinal plants from Latin America [4] have proven to be rich resources of biologically active compounds and potential new drugs. -
Henderson, L. (2007). Invasive, Naturalized and Casual Alien Plants in Southern Africa
Bothalia 37,2: 215–248 (2007) Invasive, naturalized and casual alien plants in southern Africa: a sum- mary based on the Southern African Plant Invaders Atlas (SAPIA) L. HENDERSON* Keywords: biomes, casual alien plants, invasive plants, Lesotho, naturalized plants, roadside surveys, SAPIA mapping project, South Africa, Swaziland ABSTRACT The primary objective of this publication is to provide an overview of the species identity, invasion status, geographical extent, and abundance of alien plants in South Africa, Swaziland and Lesotho, based on fi eld records from 1979 to the end of 2000. The dataset is all the species records for the study area in the Southern African Plant Invaders Atlas (SAPIA) database during this time period. A total of 548 naturalized and casual alien plant species were catalogued and invasion was recorded almost throughout the study area. Most invasion, in terms of both species numbers and total species abundance, was recorded along the southern, southwestern and eastern coastal belts and in the adjacent interior. This area includes the whole of the Fynbos and Forest Biomes, and the moister eastern parts of the Grassland and Savanna Biomes. This study reinforces previous studies that the Fynbos Biome is the most extensively invaded vegetation type in South Africa but it also shows that parts of Savanna and Grassland are as heavily invaded as parts of the Fynbos. The Fabaceae is prominent in all biomes and Acacia with 17 listed species, accounts for a very large proportion of all invasion. Acacia mearnsii was by far the most prominent invasive species in the study area, followed by A. -
Fort Ord Natural Reserve Plant List
UCSC Fort Ord Natural Reserve Plants Below is the most recently updated plant list for UCSC Fort Ord Natural Reserve. * non-native taxon ? presence in question Listed Species Information: CNPS Listed - as designated by the California Rare Plant Ranks (formerly known as CNPS Lists). More information at http://www.cnps.org/cnps/rareplants/ranking.php Cal IPC Listed - an inventory that categorizes exotic and invasive plants as High, Moderate, or Limited, reflecting the level of each species' negative ecological impact in California. More information at http://www.cal-ipc.org More information about Federal and State threatened and endangered species listings can be found at https://www.fws.gov/endangered/ (US) and http://www.dfg.ca.gov/wildlife/nongame/ t_e_spp/ (CA). FAMILY NAME SCIENTIFIC NAME COMMON NAME LISTED Ferns AZOLLACEAE - Mosquito Fern American water fern, mosquito fern, Family Azolla filiculoides ? Mosquito fern, Pacific mosquitofern DENNSTAEDTIACEAE - Bracken Hairy brackenfern, Western bracken Family Pteridium aquilinum var. pubescens fern DRYOPTERIDACEAE - Shield or California wood fern, Coastal wood wood fern family Dryopteris arguta fern, Shield fern Common horsetail rush, Common horsetail, field horsetail, Field EQUISETACEAE - Horsetail Family Equisetum arvense horsetail Equisetum telmateia ssp. braunii Giant horse tail, Giant horsetail Pentagramma triangularis ssp. PTERIDACEAE - Brake Family triangularis Gold back fern Gymnosperms CUPRESSACEAE - Cypress Family Hesperocyparis macrocarpa Monterey cypress CNPS - 1B.2, Cal IPC -
A Review of Botany, Phytochemical, and Pharmacological Effects of Dysphania Ambrosioides
Indonesian Journal of Life Sciences Vol. 02 | Number 02 | September (2020) http://journal.i3l.ac.id/ojs/index.php/IJLS/ REVIEW ARTICLE A Review of Botany, Phytochemical, and Pharmacological Effects of Dysphania ambrosioides Lavisiony Gracius Hewis1, Giovanni Batista Christian Daeli1, Kenjiro Tanoto1, Carlos1, Agnes Anania Triavika Sahamastuti1* 1Pharmacy study program, Indonesia International Institute for Life-sciences, Jakarta, Indonesia *corresponding author. Email: [email protected] ABSTRACT Traditional medicine is widely used worldwide due to its benefits and healthier components that these natural herbs provide. Natural products are substances produced or retrieved from living organisms found in nature and often can exert biological or pharmacological activity, thus making them a potential alternative for synthetic drugs. Natural products, especially plant-derived products, have been known to possess many beneficial effects and are widely used for the treatment of various diseases and conditions. Dysphania ambrosioides is classified as an annual or short-lived perennial herb commonly found in Central and South America with a strong aroma and a hairy characteristic. Major components in this herb are ascaridole, p-cymene, α-terpinene, terpinolene, carvacrol, and trans-isoascaridole. Active compounds isolated from this herb are found to exert various pharmacological effects including schistosomicidal, nematicidal, antimalarial, antileishmanial, cytotoxic, antibacterial, antiviral, antifungal, antioxidant, anticancer, and antibiotic modulatory activity. This review summarizes the phytochemical compounds found in the Dysphania ambrosioides, together with their pharmacological and toxicological effects. Keywords: Dysphania ambrosioides; phytochemicals; pharmacological effect; secondary metabolites; toxicity INTRODUCTION pharmacologically-active compound, morphine, Natural products have been used by a wide was isolated from plants by Serturner spectrum of populations to alleviate and treat (Krishnamurti & Rao, 2016).