Person: Gerpacio, R.V.
Loading...
Email Address
Birth Date
Research Projects
Organizational Units
Job Title
Last Name
Gerpacio
First Name
R.V.
Name
Gerpacio, R.V.
8 results
Search Results
Now showing 1 - 8 of 8
- Impact of public and private sector maize breeding research in Asia, 1966-1997/98(CIMMYT, 2001) Gerpacio, R.V.This book presents results of a study of the impacts of international maize breeding research in seven developing countries of Asia (China, India, Indonesia, Nepal, the Philippines, Thailand, and Vietnam). It provides comprehensive, updated documentation of the status of Asia's national maize seed industries, including information on the roles of the public and private sectors in maize R&D, descriptions of the germplasm products developed by public and private breeding programs, data on the extent of farmers' adoption of modern maize varieties, and analysis of varietal adoption patterns and trends. Information on emerging trends in maize research and maize seed industries is also provided. An introductory chapter on the maize economy of Asia is followed by a chapter synthesizing results of the study for Asia as a whole. More detailed, country-level studies are presented in the remaining six chapters.
Publication - Towards reduced pesticide use for cereal crops in Asia(CIMMYT, 1997) Pingali, P.L.; Gerpacio, R.V.Several opportunities are available for dramatically reducing the use of agrochemicals in Asia cereal crop production. The first selection of this paper summarizes past trends and future prospects for pesticide use in Asia for three major cereal crops: rice, wheat, and maize. The second section identifies factors that have contributed to rising farm-level demand for pesticides and factors that could lead to a reduction in their demand. The third section highlights the advances that have been made in generating and disseminating cereal crops with resistance to insects and diseases. It focuses on conventional breeding strategies for host-plant resistance as well as the current and potential contributions of biotechnology. Pesticide productivity, yield variabiliy, and their relation to host-plant resistance are reviewed, along with evidence from trials and farmers' fields. The paper concludes with a discussion of the integrated management approaches that will be necesary for maximizing and sustaining the productivity gainsoffered by resistant varieties.
Publication - Maize in Nepal: production systems, constraints and priorities for research(CIMMYT, 2001) Paudyal, K.R.; Ransom, J.K.; Rajbhandari, N.P.; Gerpacio, R.V.; Pingali, P.L.Maize cultivation is a way of life for most farmers in the hills of Nepal. It is a traditional crop cultivated as food, feed and fodder on slopping Bari land (rainfed upland) in the hills. It is grown under rainfed conditions during the summer (April-August) as a single crop or relayed with millet later in the season. In the terai, inner-terai, valleys, and low-lying river basin areas, maize is also grown in the winter and spring with irrigation. In 1997/1998, maize was grown on about 800,000 ha which represent 25% of the total area planted to cereals in Nepal. In the same period, 1,367,000 tons of maize were produced, representing about 21% of Nepal’s total cereal production. The proportion of maize area to total cereals was 30% in the highhills, 40% in the midhills and about 11% in the terai. Maize production as a proportion of total cereal production was 33% for the highhills, 39% for the midhills and 9% for the terai. More than two thirds of the maize produced in the midhills and highhills is used for direct human consumption at the farm level and the ratio of human consumption to total production is higher in less accessible areas. In the terai, less than 50% of the maize is used for human consumption and a significant part of the production goes to the market. Maize yields fluctuate seasonally and annually especially in the hills. Although maize yields increased slightly over the past five years, there has been very little yield improvement when compared to nationwide yields 30 years ago. This is probably due to the expansion of maize cultivation into less suitable terrain, declining soil fertility, and the sluggish adoption of improved management practices. While productivity in the country is almost stagnant, the overall demand for maize—driven by increased demand for human consumption and livestock feed— is expected to grow by 4% to 6 % per year over the next 20 years. Thus, Nepal will have to resort to maize imports in the future if productivity is not increased substantially. In 1999, the Hill Maize Research Project (HMRP) was initiated to provide new technologies to farmers to enable increased and sustainable maize production. The HMRP is funded by the Swiss Agency for Development and Cooperation (SDC) and implemented by the National Maize Research Program (NMRP) of the Nepal Agricultural Research Council (NARC), with technical assistance from the International Maize and Wheat Improvement Center (CIMMYT). The HMRP addresses a wide range of technology and technology dissemination needs from germplasm development and crop management to post harvest. It focuses on regions of Nepal where maize is important in terms of area and diet. The HMRP also supported the Rapid Rural Appraisals that were carried out for this study. This study is part of a project3 that promotes sustainable intensification of maize production systems while ensuring equitable income growth and improved food security for poor households that depend on maize. The project is funded by the International Fund for Agricultural Development (IFAD) and implemented under the direct supervision of the CIMMYT Economics Program. Nepal is one of seven countries - China, India, Indonesia, the Philippines, Thailand and Vietnam - where the study is being carried out. As most of the increased demand for maize in Nepal is expected to come from resource poor farmers in slopping uplands in the midhills, the project focuses specifically on upland maize in the midhills.
Publication - Tropical and subtropical maize in Asia: production systems, constraints, and research priorities(CIMMYT, 2007) Gerpacio, R.V.; Pingali, P.L.This book examines future technological and policy prospects for the sustainable intensification of rainfed upland maize production in Asia, and derives R&D priorities for specific maize production environments and markets. Village-level and farmer-group surveys were conducted to characterize upland maize production environments and systems in China, India, Indonesia, Nepal, the Philippines, Thailand, and Vietnam. Survey findings, particularly farmer-identified constraints to maize production, complemented with other relevant data, were used in country-level, R&D priority-setting workshops. High on the list of farmer constraints was drought, estimated to affect three production environments that are home to about 48 million rural poor and produce an estimated 16 million tons of maize, and others such as downy mildew, stem borers, soil erosion/landslides, waterlogging, poor agricultural extension/ technology transfer services, and poor access to low-interest credit and markets. Farmers felt that socioeconomic and policy-related constraints impact maize productivity more than technical constraints do. It is important to recognize that technology is not the only key to increasing productivity and bettering the conditions of marginal maize farmers in Asia. There is a growing trend towards commercializing and intensifying maize production that is different from the staple food self-sufficiency paradigm that has been the cornerstone of agricultural policy in most developing countries. Appropriate government policies could help alleviate the adverse consequences of commercialization and promote sustainable intensification of maize production, especially in marginal environments inhabited by resource-poor subsistence farmers.
Publication - Maize in the Philippines: production systems, constraints, and research priorities(CIMMYT, 2004) Gerpacio, R.V.; Labios, J.D.; Labios, R.; Diangkinay, E.I.This is one of a series of country studies on maize production systems in Asia. It is part of a project designed to promote sustainable intensification of maize production systems while ensuring equitable income growth and improved food security for poor households that depend on maize. Maize is the second most important food crop (after rice) in the Philippines, and the major source of income for one-third of farmers (1.8 million). It is also the primary source of feed for the Filipino poultry and livestock industry, and is being increasingly used in the manufacturing sector. Rapid economic growth and urbanization are expected to create an even higher demand for maize in the Philippines. The challenge is to provide more maize for an expanding market, while preserving the natural resource base and the environment. Effective policy design and implementation must be based on comprehensive, accurate data on the current state of maize-based farming systems. The goal of this study was to clarify the probable response of the social and biophysical environments of the Philippines to future growth in demand for maize by determining the constraints to productivity growth and the potential environmental consequences, by collecting information on the available options for promoting sustainable growth.
Publication - Maize in Vietnam: production systems, constraints, and research priorities(CIMMYT, 2004) Tran Dinh, Thao; Tri Khiem, N.; Xuan Trieu, M.; Gerpacio, R.V.; Pingali, P.L.This is one of a series of seven in-depth country studies on maize production systems in Asia, funded by the International Maize and Wheat Improvement Center (CIMMYT) and the International Fund for Agricultural Development (IFAD). It is part of a project designed to promote sustainable intensification of maize production systems while ensuring equitable income growth and improved food security, especially for poor households that depend on maize. This study characterized the social and biophysical maize production environment of Thailand; examined its response to increasing maize demand; determined constraints to future productivity growth; investigated the potential environmental consequences, and examined the options available for promoting sustainable growth in maize production. Maize is the second most important food crop in Vietnam after rice. It is the substitute staple in periods of rice shortage, especially for people in rural areas and mountainous regions. Maize is also the primary source of feed for Vietnam’s poultry and livestock industry, and is therefore an important source of income for many farmers. Maize production has risen sharply since 1990, when the Vietnamese government began to strongly support and promote maize hybrid technology. Vietnamese farmers have widely adopted higher-yielding hybrid maize varieties. This was a timely response to Vietnam’s growing livestock and poultry industry, which in turn generates an increasing demand for more maize to use as feed. Rapid economic growth and accelerated urbanization are expected to create an even higher demand for maize in Vietnam. This trend will lead to the intensification of current maize production systems, with more land being shifted to maize production, particularly in marginal areas. Vietnam’s challenge is to provide more maize for an expanding market, while preserving the natural resource base and the environment through careful agricultural planning. Ef fective policy design and implementation must be based on comprehensive, accurate data on the current state of maize-based farming systems.
Publication - Maize in India: production systems, constraints, and research priorities(CIMMYT, 2005) Joshi, P.K.; Singh, N.P.; Singh, N.N.; Gerpacio, R.V.; Pingali, P.L.Maize is a promising substitute crop allowing diversification from the rice-wheat system in the upland areas of India. The crop has high production potential, provided the available improved hybrids and composites reach the farming community. This study found that major biotic production constraints were Echinocloa, Cynodon dactylon, rats, and termites, which reduced maize production levels by more than 50%. Other important abiotic and biotic stresses listed in descending order of importance were: caterpillars, water stress, stem borers, weevils, zinc deficiency, rust, seed/seedling blight, cutworm, and leaf blight. Non-availability of improved seeds, inadequate input markets, ineffective technology dissemination, and lack of collective action were the principal socio-economic constraints.
Publication - Maize in Indonesia: production systems, constraints and research priorities(CIMMYT, 2004) Swastika, D.K.S.; Kasim, F.; Sudana, W.; Hendayana, R.; Suhariyanto, K.; Gerpacio, R.V.; Pingali, P.L.Maize is the second most important cereal crop in Indonesia after rice. The demand for maize as food and feed has been steadily increasing. Total national maize production has grown at 4.07% per annum in the last three decades, thanks mainly to the adoption of improved production technologies, particularly hybrid seed. This high production, however, still fails to meet domestic demand and has caused a rapid increase in the net import of maize. This study characterized the maize production systems in four major maize-producing provinces in Indonesia, namely Lampung, East Java, West Nusa Tenggara, and South Sulawesi. Important productivity constraints faced by maize farmers were identified and included: low grain prices during harvest; high input prices; large distances between maize production areas, feed mills, and seed industries; lack of promotion of local improved maize varieties (OPVs and hybrids) by government research centers; and lack of farmer capital. Farmers, the Government of Indonesia, and private companies should be encouraged to develop appropriate technology and policies, such as tariffs and credit systems, to overcome some of these constraints.
Publication