THE 24 TH INTERNATIONAL CONFERENCE ON COFFEE SCIENCE November 11-16, 2012 www.asic2012costarica.org PROGRAMME & ABSTRACTS AGRONOMY I BIOTECHNOLOGY PHYSIOLOGY I CHEMISTRY PROCESSING I COFFEE & HEALTH SUSTAINABILITY I CLIMATE CHANGE COFFEE QUALITY I PESTS & DISEASES GENOMICS & GENETICS
Sponsors: SMS Servicios de Manejo Sostenibles www.asic2012costarica.org
ASIC Board 2012 President Andrea Illy Illycaffé S.p.A. Scientific Secretary Maurice Blanc ASIC Secretariat Administrative Secretary - of Scientific Committee Maurice Blanc Deputy Scientific Secretary (agronomy and biotechnology) André Charrier Montpellier SupAgro of Scientific Committee Astrid Nehlig Inserm U405 - Faculté de Médecine of Scientific Committee Benoit Bertrand CIRAD of Scientific Committee Herbert van der Vossen Plant Breeding & Seed Consultant Steven Biesterveld Sara Lee DE NV Helmut Guenther Kraft Foods James R. Coughlin Coughlin & Associates Furio Suggi Liverani Illycaffé S.p.A. Elke Gerhard-Rieben Nested Ltd. James Teri 4 THE 24TH INTERNATIONAL CONFERENCE ON COFFEE SCIENCE
Organizing Committee Mrs. Xinia Chaves Quiros - President Vice Minister, Ministry of Agriculture and Livestock of Costa Rica Mr. Victor Villalobos - Vice President General Director, Inter-American Institute for Cooperation on Agriculture Mr. Ronald Peters Seevers - Secretary Executive Director, Costa Rica`s Coffee Institute ICAFE Executive Committee Mrs. Laura Esquivel, Board Directors ICAFE, Coordinator Mr. Mario Arroyo, ICAFE Mr. Guido Vargas, Board Directors ICAFE Mr. José Ml. Hernando, Roasters Chamber, Segafredo Mr. Rafael Hernández, Volcafe Mr. Diego Montenegro, IICA Mr. Steve Aronson, Café Britt Mr. Eric Poncon, ECOM Mr. Eric Thormaehlen, Coricafe, National Chamber of Exporters Mrs. Grace Mena, Deli Café Mr. Luis Zamora Quirós, Ministry of Agriculture and Livestock Technical Committee Mr. Jorge Ramírez, CICAFE, Coordinator Mrs. Helga Rodriguez, Board Directors, ICAFE Mr. Edgardo Alpizar, ECOM Mr. Armando García, PROMECAFE Mrs. Nelly Vasquez, CATIE Mr. Elias De Melho, CATIE Mr. Jorge Mora, INTA Mrs. Marta Valdez, CENIBIOT Mr. Carlos Mario Rodríguez, STARBUCKS Scientific Committee Mrs. Astrid Nehlig - Human physiology Mr. James Coughlin - Toxicology and risks Mrs. Adriana Farah - Chemistry and quality Mr. Marino Petracco - Chemistry and quality Mr. André Charrier Genomics and Biotechnology Mr. Benoît Bertrand Genetics and Breeding Mrs. Maria do Ceu Silva Pathology and IPM Mr. Edgardo Alpizar Agronomy Mr. Herbert van der Vossen Ecophysiology and agronomy General Organization Costa Rica`s Coffee Institute ICAFE 5 THE 24TH INTERNATIONAL CONFERENCE ON COFFEE SCIENCE
THE 24 TH INTERNATIONAL CONFERENCE ON COFFEE SCIENCE November 11-16, 2012 www.asic2012costarica.org POSTER SESSIONS Wednesday, November 14, 2012 Biotechnology & Agronomy
Spectrometry (ICP-MS) to determine the isotopic composition of strontium (Sr) in the coffee bean. The results obtained demonstrated that the isotope ratios of Sr and O of the coffee bean are a promising tool for its traceability, as these elements reflect the local geology and hydrology. In order to expand the understanding of how environmental factors determine the isotopic composition of the different elements on the green coffee bean, further research was developed focusing the region of Hawaii. The results allowed for the differentiation of the different coffee-producing regions of Hawaii. In addition, IRMS was also applied to measure the oxygen isotopic composition of the caffeine molecule (δ 18 O caff ), previously extracted from the green coffee bean. O isotopes of caffeine molecule originate from the metabolic water of plant tissues, and accordingly results showed that this organic specific compound may be relevant for studies on the coffee plant ecophysiology. Carla Rodrigues wishes to thank Fundação para a Ciência e a Tecnologia for a grant (SFRH/BD/28354/2006) and SIBAE (Stable Isotopes in Biosphere-Atmospheric-Earth System Research) programme (COST Action ES0806) for a STSM (Short Term Scientific Mission) grant. Financial support by the Austrian Science Foundation (FWF START grant 267 N11) is gratefully acknowledged. This work was financed by the project Pursuing Green Coffee Geographic Origin Discrimination through Relations between Isotopes and Environmental Factors (IsoGeoCoffee) from FCT (PTDC/AGR-AAM/104357/2008). PA 303 MANAGEMENT EFFECTS ON PHOTOSYNTHETIC CAPACITY AND LEAF LEVEL NUTRITION IN TROPICAL SHADE AGROFORESTRY SYSTEMS: THE CASE OF COFFEE IN COSTA RICA CAMPBELL, Leslie*, SOTO, Gabriela**, ISAAC, Marney E.* *University of Toronto, Toronto, Canada, ** Centro Agrono mico Tropical de Investigacion y Enseñanza, CATIE, Costa Rica. Growing concern regarding the long-term environmental sustainability of intensive C. arabica (coffee) production is increasing the re-evaluation of more sustainable methods of coffee production. Agroforestry coffee production methods present one potentially viable alternative, but further research on interspecies shade and nutrient interactions particularly at the leaf level is needed to inform efficient and effective system design. A study was undertaken to compare the adaptation of resource acquisition strategies of 10 year old coffee plants under full sun and legume (Erythrina sp. and Chloroleucon sp.) shaded conditions in combination with organic and conventional fertilization regimes at a Costa Rican experimental research site. Shade levels below biannually pruned, conventionally fertilized Erythrina elicited the strongest adaptive response in coffee as evidenced by improved photosynthetic performance at both high (A max = 4.632 μmol photons m -2 s -1 ; P = 0.0185) and low (light compensation point = 17 μmol photons m -2 s -1 ) light levels relative to coffee grown beneath Chloroleucon or full sun. These coffee plants associated with Erythrina were also found to have a higher average leaf area (39.29 cm 2 ; P = 0.0070), and dry mass (0.210 g; P = 0.0570) than any of the other treatment combinations tested. Organic fertilization was found to significantly improve soil surface available P levels in comparison to conventional fertilization (P = 0.0300) regardless of shade species, though conventional fertilization elicited a stronger shade response in the coffee plants. Based on study findings, shade mechanisms appear to be the most important drivers of aboveground coffee adaptation in coffee agroforestry systems, though proper soil nutrient management in low nutrient environments also appears to augment coffee response to microclimate conditions. 365 THE 24TH INTERNATIONAL CONFERENCE ON COFFEE SCIENCE
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