DOCSLIB.ORG

Crops Statistics of the Philippines, 2011-2015 (National and Regional) Issn-2012-0487

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Crops Statistics of the Philippines, 2011-2015 (National and Regional) Issn-2012-0487 CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) ISSN-2012-0487 NOVEMBER 2017 PHILIPPINE STATISTICS AUTHORITY CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) PHILIPPINE STATISTICS AUTHORITY CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) CROPS STATISTICS OF THE PHILIPPINES 2011-2015 PHILIPPINE STATISTICS AUTHORITY CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) REPUBLIC OF THE PHILIPPINES HIS EXCELLENCY PRESIDENT RODRIGO R. DUTERTE PHILIPPINE STATISTICS AUTHORITY LISA GRACE S. BERSALES, Ph.D. Undersecretary National Statistician JOSIE B. PEREZ Assistant Secretary Deputy National Statistician Census and Technical Coordination Office ROMEO S. RECIDE Assistant Secretary Deputy National Statistician Sectoral Statistics Office ISSN-2012-0487 Crops Statistics of the Philippines is a publication of the Philippine Statistics Authority. The PSA reserves exclusive right to reproduce this publication in whatever form. Should any portion of this publication be included in a report/article, the title of the publication and the PSA should be cited as the source of data. The PSA will not be responsible for any information derived from the processing of data contained in this publication. PHILIPPINE STATISTICS AUTHORITY ii CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) FOREWORD This is the 13th issue of Crops Statistics of the Philippines, an annual publication of the Philippine Statistics Authority (PSA). As in the previous issues, this report presents annual production statistics of 21 major crops and 26 minor priority crops with national and regional levels of disaggregation. These crops are classified into Cereals, Fruit Crops, Non- Food & Industrial Crops and Vegetables & Rootcrops. In the case of banana, mango, coffee and tobacco, production statistics are disaggregated by major variety. The reference period is 2011 to 2015. The production statistics are presented in the order of the above crop classification. Each classification is preceded by a brief description of the trends of area, production and yield and the major factors affecting these trends and the major producing regions. This report was prepared by the Crops Statistics Division (CSD) of the PSA. It serves as a ready reference for various stakeholders in the crops subsector of agriculture. The PSA continuously pursues the improvement of the delivery of its products and services. Hence, it welcomes comments and suggestions from the readers for further improvement of this report. LISA GRACE S. BERSALES, Ph.D. Undersecretary National Statistician Quezon City, Philippines November 2017 PHILIPPINE STATISTICS AUTHORITY iii C ROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS Administrative Page ii Foreword iii Table of Contents iv Explanatory Notes xiii I. Highlights A. Cereals 1 Palay 1 Corn 3 B. Fruit Crops 5 Banana 7 Calamansi 10 Mango 12 Pineapple 14 C. Non-Food and Industrial Crops 17 Abaca 19 Cacao 21 Cashew 23 Coconut 25 Coffee 27 Rubber 30 Sugarcane 32 Tobacco 34 D. Vegetables and Rootcrops 37 Cabbage 39 Cassava 41 Eggplant 43 Garlic 45 Mungbean/Mongo 47 Onion 49 Peanut 51 Sweet Potato/Camote 53 Tomato 55 Other Vegetables 57 PHILIPPINE STATISTICS AUTHORITY iv CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS II. Summary Statistics A. National 61 1.1 Annual Production of Selected Crops: 2011-2015 63 1.2 Annual Area Planted/Harvested of Selected Crops: 2011-2015 65 1.3 Annual Yield per Hectare of Selected Crops: 2011-2015 67 1.4 Annual Number of Bearing Trees/Hills/Tappable Tree, 69 Bearing Trees/Hills/Tappable Tree per Hectare, and Yield per Bearing Trees/Hills/Tappable Tree: 2011-2015 B. Cereals 71 2.1 Palay: Production, Area Harvested and Yield 73 per Hectare by Region: 2011-2015 2.2 Irrigated Palay: Production, Area Harvested and Yield 75 per Hectare by Region: 2011-2015 2.3 Rainfed Palay: Production, Area Harvested and Yield 77 per Hectare by Region: 2011-2015 2.4 Corn: Production, Area Harvested and Yield 79 per Hectare by Region: 2011-2015 2.5 White Corn: Production, Area Harvested and Yield 81 per Hectare by Region: 2011-2015 2.6 Yellow Corn: Production, Area Harvested and Yield 83 per Hectare by Region: 2011-2015 C. Fruits 85 3.1 Banana: Production, Area and Yield per Hectare 87 by Region: 2011-2015 PHILIPPINE STATISTICS AUTHORITY v C ROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS 3.1a Banana: Number of Bearing Hills, Bearing Hills 89 per Hectare and Yield per Bearing Hills by Region: 2011-2015 3.1.1 Cavendish Banana: Production, Area and Yield 91 per Hectare by Region: 2011-2015 3.1.1a Cavendish Banana: Number of Bearing Hills, Bearing Hills 93 per Hectare and Yield per Bearing Hills by Region: 2011-2015 3.1.2 Lakatan Banana: Production, Area and Yield 95 per Hectare by Region: 2011-2015 3.1.2a Lakatan Banana: Number of Bearing Hills, Bearing Hills 97 per Hectare and Yield per Bearing Hills by Region: 2011-2015 3.1.3 Saba Banana: Production, Area and Yield 99 per Hectare by Region: 2011-2015 3.1.3a Saba Banana: Number of Bearing Hills, Bearing Hills 101 per Hectare and Yield per Bearing Hills by Region: 2011-2015 3.2 Calamansi: Production, Area and Yield per Hectare 103 by Region: 2011-2015 3.2a Calamansi: Number of Bearing Trees, Bearing Trees 105 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.3 Durian: Production, Area and Yield per Hectare 107 by Region: 2011-2015 3.3a Durian: Number of Bearing Trees, Bearing Trees 109 per Hectare and Yield per Bearing Trees by Region: 2011-2015 PHILIPPINE STATISTICS AUTHORITY vi CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS 3.4 Lanzones: Production, Area and Yield per Hectare 111 by Region: 2011-2015 3.4a Lanzones: Number of Bearing Trees, Bearing Trees 113 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.5 Mandarin: Production, Area and Yield per Hectare 115 by Region: 2011-2015 3.5a Mandarin: Number of Bearing Trees, Bearing Trees 117 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.6 Mango: Production, Area and Yield per Hectare 119 by Region: 2011-2015 3.6a Mango: Number of Bearing Trees, Bearing Trees 121 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.6.1 Carabao Mango: Production, Area and Yield 123 per Hectare by Region: 2011-2015 3.6.1a Carabao Mango: Number of Bearing Hills, Bearing Hills 125 per Hectare and Yield per Bearing Hills by Region: 2011-2015 3.7 Mangosteen: Production, Area and Yield per Hectare 127 by Region: 2011-2015 3.7a Mangosteen: Number of Bearing Trees, Bearing Trees 129 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.8 Orange: Production, Area and Yield per Hectare 131 by Region: 2011-2015 PHILIPPINE STATISTICS AUTHORITY vii CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS 3.8a Orange: Number of Bearing Trees, Bearing Trees 133 per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.9 Papaya: Production, Area and Yield per Hectare 135 by Region: 2011-2015 3.9a Papaya: Number of Bearing Trees, Bearing Trees per Hectare and Yield per Bearing Trees 137 by Region: 2011-2015 3.10 Pineapple: Production, Area and Yield per Hectare 139 by Region: 2011-2015 3.11 Rambutan: Production, Area and Yield per Hectare 141 by Region: 2011-2015 3.11a Rambutan: Production, Area and Yield per Hectare 143 by Region: 2011-2015 3.12 Tamarind Fruit: Production, Area and Yield per Hectare 145 by Region: 2011-2015 3.12a Tamarind Fruit: Number of Bearing Trees, Bearing 147 Trees per Hectare and Yield per Bearing Trees by Region: 2011-2015 3.13 Watermelon: Production, Area and Yield per Hectare 149 by Region: 2011-2015 D. Non-Food and Industrial Crops 151 4.1 Abaca (Dried Raw Fiber): Production, Area and Yield 153 per Hectare by Region: 2011-2015 4.2 Cacao (Dried Beans with pulp): Production, Area and Yield 155 per Hectare by Region: 2011-2015 PHILIPPINE STATISTICS AUTHORITY viii CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS 4.2a Cacao (Dried Beans with pulp): Number of Bearing Trees, 157 Bearing Trees per Hectare and Yield per Bearing Trees by Region: 2011-2015 4.3 Cashew (Ripe Fruit with nut): Production, Area and Yield 159 per Hectareby Region: 2011-2015 4.3a Cashew (Ripe Fruit with nut): Number of Bearing Trees, 161 Bearing Trees per Hectare and Yield per Bearing Trees by Region: 2011-2015 4.4 Coconut with Husk: Production, Area and Yield 163 per Hectareby Region: 2011-2015 4.4a Coconut with Husk: Number of Bearing Trees, 165 Bearing Trees per Hectare and Yield per Bearing Trees by Region: 2011-2015 4.5 Coffee (Dried Berries): Production, Area and Yield 167 per Hectare by Region: 2011-2015 4.5a Coffee (Dried Berries): Number of Bearing Trees, 169 Bearing Trees per Hectare and Yield per Bearing Trees by Region: 2011-2015 4.5.1 Arabica Coffee: Production, Area and Yield 171 per Hectare by Region: 2011-2015 4.5.1a Arabica Coffee: Number of Bearing Trees, Bearing Trees 173 per Hectare and Yield per Bearing Trees by Region: 2011-2015 4.5.2 Excelsa Coffee: Production, Area and Yield 175 per Hectare by Region: 2011-2015 4.5.2a Excelsa Coffee: Number of Bearing Trees, Bearing Trees 177 per Hectare and Yield per Bearing Trees by Region: 2011-2015 PHILIPPINE STATISTICS AUTHORITY ix CROPS STATISTICS OF THE PHILIPPINES, 2011-2015 (NATIONAL AND REGIONAL) TABLE OF CONTENTS 4.5.3 Liberica Coffee:
Load more

Recommended publications
  • 'Lakatan' Banana
    Effects of Organic-based Fortified Foliar Fertilizer on the Growth and Yield of ‘Lakatan’ Banana (Musa acuminata) Alminda Magbalot-Fernandez, PhD1, Lara Montifalcon2 1Lecturer, School of Agriculture and Food Technology, The University of the South Pacific, Alafua, Apia, Samoa 38360 2Researcher, College of Agriculture and Related Sciences, University of Southeastern Philippines, Tagum City, Davao del Norte, Philippines 8100 Abstract To determine the effect of Organic-based Fortified Foliar Fertilizer (OFF) on the growth and yield of ‘Lakatan’ banana, this study was conducted at the University of Southeastern Philippines, Tagum – Mabini Campus, Mabini Unit, Mampising, Mabini, Compostela Valley Province, from December 2015 to March 2016. The experiment was laid out in Completely Randomized Design (CRD) with six treatments replicated three times. The treatments were: T1- control; T2- Recommended Rate of NPK fertilizer/ha; T3 - ½ RR of NPK/ha; T4 –Organic-based Fortified Foliar fertilizer (OFF) at 100 ml/16 liters of water; T5 - ½ RR of NPK + OFF; and T6 - RR of NPK + OFF. Results showed that no significant effects were observed in terms of the plant height at 15, 30, 45 days after application (DAA), pseudostem girth at 15, 30, 45 DAA, and number of hands per bunch. However, significant differences were obtained in the number of leaves, number of fingers per bunch, fruit weight (kg) and yield (tons/ha) of ‘Lakatan’ banana. The highest number of leaves were obtained in T6 – RR of NPK fertilizer/ha + OFF which is comparable to T5 – ½ RR of NPK fertilizer/ha + OFF. T6 – RR of NPK+ OFF also had the highest number of fingers per hand than the rest of the treatments as much as 21% higher than the control.
    [Show full text]
  • Farmers' Perceptions About Banana Insect Pests And
    2014 International Conference on Intelligent Agriculture IPCBEE vol.63 (2014 ) © (2014 ) IACSIT Press, Singapore DOI: 10.7763/IPCBEE. 2014 . V63. 5 Farmers’ Perceptions about Banana Insect Pests and Integrated Pest Management (IPM) Systems in SocSarGen, Mindanao, Philippines Catherine Hazel Aguilar+, Florence Lasalita-Zapico, Jaime Namocatcat, Abegail Fortich and Rea Mae Bojadores Science Department, College of Natural Sciences and Mathematics, Mindanao State University-Fatima, General Santos City, 9500, Philippines Abstract. On-site insect pest surveys and interviews with banana farmers in four banana-growing areas in SOCSARGEN (South Cotabato, Sarangani Province, General Santos City), Mindanao were undertaken to determine the incidence of insect pests as well as farmers’ views and perceptions about integrated pest management as a system for pest control. In all four sites, insect pests such as black aphid (Pentalonia nigronervosa), stem weevil (Odoiporus longicollis), brown aphid (Toxoptera citricida), lace bug (Stephanitis typica), stalk fly (Telostylinus lineolatus), spiraling whitefly (Aleurodicus disperses), corm weevil (Cosmopolites sordidus) Chinese rose beetle (Adoretus sinicus) and mealy bug (Dysmicoccus neobrevipes) inflicted different types of damage to banana plants. Survey results revealed that banana production is severely hampered by viral and pest infestation, declining soil fertility, Fusarium wilt and other problems. While all farmers use a wide array of IPM methods in their farms, a significant number believe that these are insufficient in bringing down pest populations. A few are seriously considering the use of synthetic inputs as a viable farming alternative. Though representing only four banana-growing areas, the study nonetheless provides baseline information about pest incidence and IPM strategies used by farmers in SOCSARGEN banana plantations where no such documented reports are available.
    [Show full text]
  • Marketing of Agricultural Commodities by Producer Groups in the Philippines
    Book Series No. 158/1996 r Marketing of Agricultural Commodities by Producer Groups in the Philippines Edited by Aida R. Librero and Anita G. Tidon lional Development Research Centre ARCHIV ne Council for Agriculture, Forestry 113022 I Resources Research and Development rtment of Science and Technology 1DRC - Lib. 1 1 Dear Reader: The formation of producer groups to undertake marketing functions is a cooperative strategy to minimize inefficiencies in the marketing system and to enable farmers to avail themselves of better returns to their produce. This strategy is resorted to as an alternative marketing scheme to fairly distribute market benefits to a wider number of market participants and help maintain the competitive structure of the market through pricing and efficient resource use. This publication documents the marketing efficiency of farmers' organizations and rural-based marketing cooperatives. It presents an assessment of the implications of these groups on the social and economic well-being of farmers, as well as the impact of relevant policies and programs, support and other services on the performance and sustainability of these groups. This volume is intended to be a useful reference to all those involved in cooperative marketing. Sincerely yours, WILLIAM D. DAR Executive Director PHILIPPINE COUNCIL FOR AGRICULTURE, FORESTRY AND NATURAL RESOURCES RESEARCH AND DEVELOPMENT Paseo de Valmayor, Los Baiios 4030, Laguna, Philippines, P.O. Box 425 Tel. Nos. 536-0014 - 536-0015/536-0017-536-0020 & 536-0024 Manila Liaison Office: Rm. 103 Gr. Floor, DOST Bicutan, Tagig, Metro Manila Tel. No. 837-1651 DA-ATI Office, Quezon City Tel. No. (02) 978541 loc.
    [Show full text]
  • Defining the Role of Phytoene Synthase in Carotenoid Accumulation of High Provitamin a Bananas
    Defining the role of phytoene synthase in carotenoid accumulation of high provitamin A bananas By Bulukani Mlalazi Bachelor of Biotechnology Innovation (Hons.) A thesis submitted for the degree of Doctor of Philosophy at the Queensland University of Technology Centre for Tropical Crops and Biocommodities 2010 Abstract: Vitamin A deficiency (VAD) is a serious problem in developing countries, affecting approximately 127 million children of preschool age and 7.2 million pregnant women each year. However, this deficiency is readily treated and prevented through adequate nutrition. This can potentially be achieved through genetically engineered biofortification of staple food crops to enhance provitamin A (pVA) carotenoid content. Bananas are the fourth most important food crop with an annual production of 100 million tonnes and are widely consumed in areas affected by VAD. However, the fruit pVA content of most widely consumed banana cultivars is low (~ 0.2 to 0.5 µg/g dry weight). This includes cultivars such as the East African highland banana (EAHB), the staple crop in countries such as Uganda, where annual banana consumption is approximately 250 kg per person. This fact, in addition to the agronomic properties of staple banana cultivars such as vegetative reproduction and continuous cropping, make bananas an ideal target for pVA enhancement through genetic engineering. Interestingly, there are banana varieties known with high fruit pVA content (up to 27.8 µg/g dry weight), although they are not widely consumed due to factors such as cultural preference and availability. The genes involved in carotenoid accumulation during banana fruit ripening have not been well studied and an understanding of the molecular basis for the differential capacity of bananas to accumulate carotenoids may impact on the effective production of genetically engineered high pVA bananas.
    [Show full text]
  • As Foliar'fertilizer ' for Banana
    EFFICACY EVALUATION OF HYFER PLUS (GREEN) AS FOLIAR'FERTILIZER ' FOR BANANA ADORACION TORRES-GUY University Researcher " Soils and Agro-Ecosystem Division Agricultural Systems Cluster College of Agriculture 2011 U.P. Los Banos College, Laguna' EFFICACY EVALUATION OF HYFER PLUS GREEN AS FOLIAR FERTILIZER FOR BANANA ADORACION TORRES-GUY University Researcher SOILS AND AGRO-ECOSYSTEM DIVISION AGRICULTURAL SYSTEMS CLUSTER COLLEGE OF AGRICULTURE U.P. LOS BANOS COLLEGE, LAGUNA EFFICACY EVALUATION OF HYFER PLUS GREEN FOLIAR . FERTILIZER FOR BANANA (Musa sapientumi ABSTRACT Field trials designed to assess the efficacy of HYFER PLUS green foliar fertilizer for banan was conducted at Barangay Inao-awan, Cavinti, Laguna from November 2010 to March 2011. HYFER PLUS applied in addition to. chemical fertilizer was able to increase plant height, leaf length, leaf area index, stem circumference, weight of hands per bunch and yield of banana. Based on aggregated computations of all parameters irregardless of treatments, 12 % increase is attributed to application of Hyfer to lakatan banana. INTRODUCTION In the Philippines, banana is considered as the most economically and socially important fruit crop. Banana belongs to the family Musaceae under the order Scitaninae and it consists of two genera: Ensete and Musa. There are three species that are indigenous to the Philippine island: Musa balbasiana Colla, Musa acuminata Colla ( saging maching), and Musa textiles Nee (abaca). Banana produces fruit without undergoing fertilization or sexual union. It is considered as a perennial herb but it bears fruit only once. Banana can be used for desert and for cooking. Bananas also have different morphological habits. Some have erect leaves (e.g.
    [Show full text]
  • LIST of PHTRC THESES As of November 2020
    LIST OF PHTRC THESES As of November 2020 NO. OF CALL NUMBER AUTHOR TITLE YEAR ADVISER PAGES Production and Management of Small Trees and Shrubs at Kalikasan Nursery, San ABANO, Althea A. 2001 Tito J. Rimando 73 Antonio, Quezon AGUILAR, Eric Nilo Nacorda Modification, Fabrication, Testing and Evaluation of a Peristaltic Pump 1989 Jessie Elauria 26 The Browning Disorder of Rambutan II: Relationship Between Moisture Status and AGRAVANTE, Josephine 1982 Dr. Doroteo B. Mendoza, Jr. 34 Browning AGAWIN, Cherry C. Physio-Chemical Changes in Waxed Pineapple (Ananas comosus c.v. Queen) 1994 Dr. Edralina P. Serrano 88 Modified Atmosphere Packaging in Zeolite Film of Carabao Mango (Mangifera ADLUS, Shamita Twyla T. 2005 Dr. Edralina P. Serrano 89 indica L.) Fruits at Advanced Stage of Ripeness ALCANTARA, Eusebio F., Jr. Developmental Changes During Growth and Maturation of 'Pico' Mango 1984 Dr. Doroteo B. Mendoza, Jr. 35 Effects of Growth Regulators on the Ripening of 'Çarabao'Mangoes Sprayed with ANIT, Gerardo Acuna 1983 Dr. Doroteo B. Mendoza, Jr. 59 Ethephon Before Harvest LG 993 1998 A124 A54 ANGULO, Aileen Ortega Marketing Strategies for Florafresh: A cutflower Vaselife Extender 1999 Loida E. Mojica 89 ANGELES, Mark Joseph Capua Demand for Selected Vegetables of Supermarkets in Laguna, 2009 2010 Nora D.M. Carambas 102 AMANTE, Vilma De Los Reyes Degreening of Citrus Reticulata Blanco 'Ladu'Using Ethylene and Ethephon 1983 Dr. Doroteo B. Mendoza, Jr. 56 ALVAREZ, Vina Liporada Evaluation of the Vase Life of Diefferent Gladiolus Cultivars (3 cvs.) 1986 Tito J. Rimando 72 Marketing of Vegetables Under the GMTFM-Farmer-Cooperative Tie-Up in ALTAMARINO, Antonio P., Jr.
    [Show full text]
  • Fruits Program Area Research Planning and Prioritization: Background Analysis Isabelita M
    Philippine Institute for Development Studies Fruits Program Area Research Planning and Prioritization: Background Analysis Isabelita M. Pabuayon DISCUSSION PAPER SERIES NO. 2000-18 The PIDS Discussion Paper Series constitutes studies that are preliminary and subject to further revisions. They are be- ing circulated in a limited number of cop- ies only for purposes of soliciting com- ments and suggestions for further refine- ments. The studies under the Series are unedited and unreviewed. The views and opinions expressed are those of the author(s) and do not neces- sarily reflect those of the Institute. Not for quotation without permission from the author(s) and the Institute. May 2000 For comments, suggestions or further inquiries please contact: The Research Information Staff, Philippine Institute for Development Studies 3rd Floor, NEDA sa Makati Building, 106 Amorsolo Street, Legaspi Village, Makati City, Philippines Tel Nos: 8924059 and 8935705; Fax No: 8939589; E-mail: [email protected] Or visit our website at http://www.pids.gov.ph FRUITS PROGRAM AREA RESEARCH PLANNING AND PRIORITIZATION: BACKGROUND ANALYSIS A Draft Report Submitted to the Philippine Institute for Development Studies (PIDS) June 30, 1999 Isabelita M. Pabuayon Consultant 1 TABLE OF CONTENTS Page 1. Background 1 2. Objectives 1 3. Industry Profile 2 3.1 Contributions to Agricultural Production, GVA and Exports 2 3.1.1 Banana 3 3.1.2 Pineapple 3 3.1.3 Mango 3 3.1.4 Citrus 4 3.1.5 Papaya 4 3.1.6 Durian 4 3.1.7 Other Fruits 4 3.2 Domestic Production: National and Regional 4 National: 3.2.1 Harvest Area 5 3.2.2 Yield 5 3.2.3 Volume and Value of Production 6 Regional: 3.2.4 Harvest Area 6 3.2.5 Yield 7 3.2.6 Production Volume 8 3.3 Domestic Consumption 8 3.4 External Trade 9 3.4.1 Volume and Value of Exports 10 3.4.2 Export Markets 12 3.4.3 Volume and Value of Imports 14 3.5 World Production and Trade 14 3.6 Market Potentials and Strengths of the Fruits Industry 15 3.7 Constraints/Problems Affecting the Industry 17 4.
    [Show full text]
  • (IRA) for the Importation of Cavendish Bananas from the Philippines
    Final Import Risk Analysis Report for the Importation of Cavendish Bananas from the Philippines Part C November 2008 © Commonwealth of Australia 2008 This work is copyright. You may download, display, print and reproduce this material in unaltered form only (retaining this notice) for your personal, non-commercial use or use within your organisation. Apart from any use as permitted under the Copyright Act 1968, all other rights are reserved. Requests and inquiries concerning reproduction and rights should be addressed to the Communications Manager, Biosecurity Australia, or e-mailed to [email protected]. Cite this report as: Biosecurity Australia (2008) Final Import Risk Analysis Report for the Importation of Cavendish Bananas from the Philippines, Part C. Biosecurity Australia, Canberra. The Australian Government acting through Biosecurity Australia has exercised due care and skill in preparing and compiling the information in this publication. Notwithstanding, Biosecurity Australia, its employees and advisers disclaim all liability to the maximum extent permitted by law, including liability for negligence, for any loss, damage, injury, expense or cost incurred by any person as a result of accessing, using or relying upon any of the information in this publication. Postal address: Biosecurity Australia GPO Box 858 CANBERRA ACT 2601 AUSTRALIA Internet: www.biosecurityaustralia.gov.au Cover image: Emerging banana bunch showing bracts, flowers and fingers (Photo: D Peasley) 2 This import risk analysis has been released by the Chief Executive of Biosecurity Australia. Stakeholders have 30 days from the publication of this document to lodge an appeal in writing with the Import Risk Analysis Appeals Panel – a body independent of Biosecurity Australia – on one or both of the following grounds: There was a significant deviation from the process set out in the Import Risk Analysis Handbook (BA 2003) that adversely affected the interests of a stakeholder.
    [Show full text]
  • Banana Commodity Chain in Madagascar Eradicating Black
    The International Journal on Banana and Plantain Banana commodity chain in Madagascar Eradicating black Sigatoka in Australia Genetic diversity of Mycosphaerella in Colombia Effect of planting hole depth Safeguarding banana diversity Vol. 14 No.2 December 2005 InfoMusa Cover photo: Vol. 14 No.2 Samuel Addo from Ghana (Alphonse N. Attey) INFOMUSA Vol. 14, No. 2 Publisher: International Network for the Improvement of Banana and Plantain Publishing director: Claudine Picq Editor: Anne Vézina Editorial Committee: Charlotte Lusty, Richard Markham, Nicolas Roux, Mike Smith, Charles Staver Layout: Crayon & Cie Printed in France ISSN 1023-0076 Contents Editorial Office: INFOMUSA, INIBAP, Parc Scientifique Economics of the Madagascan commodity chain Agropolis II, 34397 Montpellier Cedex 5, L. Temple, A.H.J. Rakotomalala and T. Lescot 2 France. Telephone + 33-(0)4 67 61 13 02; Telefax: + 33-(0)4 67 61 03 34; E-mail: [email protected] Eradication of black leaf streak disease from banana-growing Subscriptions are free for developing areas in Australia countries readers. Article contributions and letters to the editor are welcomed. R. Peterson, K. Grice and R. Goebel 7 Articles accepted for publication may be edited for length and clarity. INFOMUSA Field evaluation of strobilurins, triazoles and acibenzolar to is not responsible for unsolicited material, control Sigatoka disease in Australia however, every effort will be made to respond to queries. Please allow three L.L. Vawdrey and K. Grice 11 months for replies. Unless accompanied by a copyright notice, articles appearing in Fulvic acid applications for the management of diseases caused INFOMUSA may be quoted or reproduced without charge, provided acknowledgement by Mycosphaerella spp.
    [Show full text]
  • Ascorbic Acid and Potassium Aluminum Sulfate Solutions in Shelf-Life of Philippine Banana Lakatan (Musa Acuminata) Species
    International Journal of Food Engineering Vol. 1, No. 1, June 2015 Ascorbic Acid and Potassium Aluminum Sulfate Solutions in Shelf-Life of Philippine Banana Lakatan (Musa acuminata) Species Liwayway H. Acero Department of Natural Sciences, San Beda College, Manila Philippines Email: [email protected] Abstract—There are a lot of studies using physico-chemical the variety most widely grown by small-hold banana methods on prolonging shelf-life of bananas. However no growers in Northern Luzon, along with Saba, Latundan, published studies conducted on the low cost method of and Bungulan [2]. prolonging shelf-life of bananas in Philippine setting. This Banana is a climacteric fruit. It is usually harvested study focuses on the simple chemical methods that can immediately be used by banana farmers and retailers on once they have reached maturity which then undergoes how to prolong the shelf-life of Musa acuminata. Three rapid ripening during transit and storage. Lakatan treatments (control-no immersion, 50g/l Potassium bananas if keep in low temperature (18-20 degrees Aluminum Sulfate, 50g/l ascorbic acid as immersing Centigrade) will ripe at 18 days. But if keep in room solution) with three groups (10 minutes, 20 minutes and 30 temperature (25-28 degrees Centigrade) in tropical minutes) was used in this study. Initial weight, average countries, will ripen on the 5th day as shown in Fig. 1 [3]. number of ripening days, final weight and cost analysis per The Philippine banana industry is currently one of the treatment was computed. Result showed (significant difference) that the longest ripening days was obtained in top agricultural export earners.
    [Show full text]
  • Proceedings of the Sixth OCEANIAFOODS Conference
    1 Food Standards Australia New Zealand Proceedings of the sixth OCEANIAFOODS Conference Brisbane, Australia 8 - 9 February 2002 2 © Food Standards Australia New Zealand 2004 ISBN 0 642 34515 5 Published December 2003 This work is copyright. Apart from any use as permitted under the Copyright Act 1968, no part may be reproduced by any process without prior written permission from Food Standards Australia New Zealand Food (FSANZ). Requests and inquiries concerning reproduction and rights should be addressed to the Information Officer, Food Standards Australia New Zealand, PO Box 7168, Canberra BC, ACT 2610. An electronic version of this work is available on the Food Standards Australia New Zealand (FSANZ) website at http://www.foodstandards.gov.au . This electronic version may be downloaded, displayed, printed and reproduced in unaltered form only for your personal, non-commercial use or use within your organisation. Food Standards Australia New Zealand Australia New Zealand PO Box 7186 PO Box 10599 Canberra BC ACT 2610 Wellington Australia New Zealand Tel +61 2 6271 2241 Tel +64 4 473 9942 Fax +61 2 6271 2278 Fax +64 4 473 9855 Email [email protected] Email [email protected] Edited by Judy Cunningham & Luisa Trevisan 3 CONTENTS ACKNOWLEDGMENTS .......................................................................................................6 FOREWORD............................................................................................................................7 MEETING PRÉCIS.................................................................................................................8
    [Show full text]
  • Review Article
    Review Article Application of 1-Methylecyclopropene (1-MCP) for delaying the ripening of banana: a review ABSTRACT 1- Methylcyclopropene (1-MCP) has been identified as a safe chemical tested successfully in extending shelf life while maintaining quality of plant products. 1-MCP, at very low concentrations, usually blocks ethylene receptors and then inhibits the action of ethylene delaying further ripening and senescence. Several studies have been conducted elsewhere for delaying ripening of different banana cultivars such as Cavendish, Prata, Tella Chakkerakeli, Beragan and Kolikuttu. Physiological reactions related with ripening of banana are delayed by inhibition of ethylene perception, while ethylene synthesis of banana fruit can be regulated at suppressed levels of ACS and ACO by 1-MCP. The effectiveness of 1-MCP on bananas varies with the maturity of the fruit. Fumigation, the conventional application method, has some limitations, particularly long exposure duration, uneven ripening and green ripening in bananas. Application of 1-MCP in aqueous form is recently developed to minimize these limitations. Micro-bubbling and controlled release packaging technologies are effective tools of application of 1-MCP on bananas. This review compiles and critically analyses the existing knowledge on the technological use of 1-MCP, clarifies inconsistencies in different publications. Keywords: 1-Methylcyclopropene , Banana, Ethylene, Ripening, Shelf life, 1.0 INTRODUCTION Banana (Musa acuminata Colla) is a climacteric fruit crop and widely grown in tropical countries having a high consumer demand throughout the world. A major problem found in banana industry is high postharvest losses owing to its short postharvest life [1]. Ripening of banana is initiated either by endogenous ethylene which is evolved naturally when banana fruit reaches its full maturity stage or by using commercially available products which release ethylene gas.
    [Show full text]