Готові списки джерел за темами / Agriculture

Добірка наукової літератури з теми "Agriculture"

Автор: Grafiati
Опубліковано: 4 червня 2021
Оновлено: 22 червня 2024

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Зміст

  1. Статті в журналах
  2. Дисертації
  3. Книги
  4. Частини книг
  5. Тези доповідей конференцій
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Статті в журналах з теми "Agriculture":

1

Kan, Ying Bo, Ling Ling Wang, Yi Shan Zhang, and En Ping Liu. "Research on Control System of Tropical Intelligent Agriculture in Hainan." Applied Mechanics and Materials 385-386 (August 2013): 923–26. http://dx.doi.org/10.4028/www.scientific.net/amm.385-386.923.

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Research on intelligent agriculture in our country has attracted great attention of the researchers now, but it is still under discovery. According to tropical agriculture in Hainan to IT's demand, the paper studies the key technology in the development of tropical intelligent agriculture, including automatic test technology, automatic control technology, Internet of Things and so on. This paper analyzes factors that affect tropical intelligent agricultures development, which include agricultural program, agricultural policies and regulations, agricultural technology situation, infrastructure construction, field management and other factors. The thesis builds a model between the development of tropical intelligent agriculture and its affecting factors. A developmental idea of tropical intelligent agriculture in Hainan is proposed on the basis of the model. The thesis analyzes the construction of intelligent agriculture control system in Hainan from the angles of data acquisition, data transfer, data analysis and data feed.
2

Xu, Zhun. "The Development of Capitalist Agriculture in China." Review of Radical Political Economics 49, no. 4 (July 21, 2017): 591–98. http://dx.doi.org/10.1177/0486613417717046.

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Scholars have different views on the nature and pace of capitalist transformation of the Chinese agriculture. In this paper, we have, for the first time, estimated the approximate size of agricultural proletariat in China as well as the prevalence of wage labor in agricultural work. We argue that by comparing with typical capitalist agricultures in the world, China’s agriculture is increasingly capitalist rather than petty producer/populist.
3

Vapa Tankosić, Jelena, Borjana Mirjanić, Radivoj Prodanović, Snežana Lekić, and Biljana Carić. "Digitalization in Agricultural Sector: Agriculture 4.0 for Sustainable Agriculture." Journal of Agronomy, Technology and Engineering Management (JATEM) 7, no. 1 (March 20, 2024): 1036–42. http://dx.doi.org/10.55817/geqw8736.

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Sustainable and resilient systems within the food industry play a key role in global growth and development. In recent years, negative effects such as drought caused by climate change, destructive natural disasters, and destruction of biodiversity and natural resource erosion, agricultural migration, aging agricultural population, and global epidemics have deepened the environmental concerns. Apart from the negative effects on the food supply, pressure on the demand side is created by the growing population, which makes it necessary to create a new agrarian policy. Technological development has affected agriculture and agricultural production systems. One of the most prominent approaches is the integration of a new generation of digital technologies into the agricultural system, ensuring maximum benefit from information and data. Digitalization and the use of digital data have fundamentally transformed the agro-food system. The aim of this paper is present in a systematic view the agricultural digital transformation in the Agriculture 4.0, in the framework of sustainable development of agriculture. The aforementioned imposes sustainable agriculture by adequate agricultural policy instruments.
4

Jia, Hepeng. "Agriculture: science and technology safeguard sustainability." National Science Review 6, no. 3 (March 16, 2019): 595–600. http://dx.doi.org/10.1093/nsr/nwz036.

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Abstract China has traditionally placed tremendous importance on agricultural research. Meanwhile, in recent years, sustainable agriculture has been increasingly highlighted in both policy agenda and the capital market. However, while terms like environmental friendliness, low carbon, organic and green agriculture have become buzzwords in the media, few meaningful discussions have been raised to examine the relationship between science and technology (S&T) development and sustainable agriculture. What's more, some environmentalists stress that sustainable agriculture should abandon modern agriculture's heavy reliance on science and industrialization, making the link between agricultural S&T and sustainable agriculture seem problematic. What is the truth? If S&T are to play an important role in advancing sustainable agriculture, what is the current status of the field? What factors have caused the sustainable development of agriculture in China? At an online forum organized by the National Science Review (NSR), Hepeng Jia, commissioned by NSR executive editor-in-chief Mu-ming Poo, asked four scientists in the field to examine the dynamic relationship between sustainable agriculture and agricultural S&T in the Chinese context. Jikun Huang Agricultural economist at Peking University, Beijing, China Xiaofeng Luo Agricultural economist at Huazhong Agricultural University, Wuhan, China Jianzhong Yan Agricultural and environmental scientist at Southwest University, Chongqing, China Yulong Yin Veterinary scientist at Institute of Subtropical Agriculture, Chinese Academy of Sciences, Changsha, China Hepeng Jia (Chair) Science communication scholar at Cornell University, Ithaca, NY, USA
5

Jesus, Maria, Pedro Damião Henriques, Pedro Laranjeira, Vanda Narciso, and Maria Leonor Da Silva Carvalho. "A Agricultura Itinerante no Distrito de Bobonaro em Timor-Leste no Período Pós-Independência." Revista em Agronegócio e Meio Ambiente 8, no. 1 (April 15, 2015): 193. http://dx.doi.org/10.17765/2176-9168.2015v8n1p193-215.

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A agricultura itinerante é um tipo de sistema agrícola primitivo, adotado historicamente nos ecossistemas de florestas tropicais, em que o ser humano faz o corte da floresta, queimando os resíduos como preparação da terra para a cultura. A produção de alimentos é feita por 2 a 3 anos e, posteriormente, a área é abandonada, tornando-se improdutiva. Muitas vezes, nos terrenos abandonados estabelece-se a floresta secundária, podendo voltar a ser utilizados para o cultivo cerca de dez a vinte anos depois. Em Timor-Leste, a agricultura itinerante ainda é praticada como forma de agricultura de subsistência. Com este trabalho pretendemos caracterizar a agricultura itinerante em Timor-Leste e relevar a sua importância socioeconômica para as populações rurais do território, identificar os seus impactos na sustentabilidade ambiental dos ecossistemas e referir as soluções para minorar os seus efeitos negativos. A metodologia utilizada baseou-se na recolha de informação bibliográfica relevante sobre o tema e na realização de um inquérito por questionário a agricultores itinerantes do subdistrito de Atabae, distrito de Bobonaro. Este questionário caracterizou a agricultura itinerante e ouviu a opinião dos agricultores sobre os efeitos da mesma. A agricultura itinerante de hoje em Timor-Leste destina-se essencialmente às culturas de horta. Os materiais resultantes do derrube e corte da floresta são usados para lenha, vedações e materiais de construção. Os impactos negativos sobre os bens e serviços produzidos por florestas são sentidos através das mudanças na precipitação, erosão, mudanças climáticas, diminuição do número de animais selvagens, e das plantas e produtos colhidos nas florestas. Itinerant Agriculture in the Bobonaro District in East Timor During the Post-Independence Period ABSTRACT: Itinerant agriculture is a primitive agricultural system historically adopted in the ecosystems of tropical forests in which people make a clearing in the forest and burn the residues to prepare the ground for planting. Food production occurs for 2 to 3 years; the area is then abandoned and becomes non-productive. A secondary forest establishes itself frequently on the abandoned ground and may be used once more for crop planting after ten to twenty years. Itinerant agriculture is still employed in East Timor as subsistence agriculture. Current analysis characterizes the iterant agriculture in East Timor and enhances its social and economic relevance for rural populations, identifies impacts on the environmental sustainability of ecosystems and describes solutions to minimize its negative effects. Methodology is based on the bibliographical information on the theme and on a questionnaire survey to itinerant peasants of the sub-district Atabae in Bobonaro. The questionnaire characterized itinerant agriculture and collected the opinion of peasants on its effects. Current itinerant agriculture in East Timor is restricted to kitchen gardens and the material produced in forest clearings is used as firewood and building material. The negative impacts on goods and services produced by the forests are measured by changes in rainfall, erosion, climate changes, decrease in the number of wild animals and plants and in products collected in the forest. KEYWORDS: Itinerant Agriculture; Forest Ecosystems; Sustainability; East Timor.
6

Kuzmanović, Daniela. "Sustainable development in agriculture with a focus on decarbonization." Western Balkan Journal of Agricultural Economics and Rural Development 5, no. 2 (2023): 163–77. http://dx.doi.org/10.5937/wbjae2302163k.

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This article examines sustainable agriculture's core objective: reducing environmental impact while ensuring continuity in food production. It distinguishes agroecology from sustainable agriculture and organic food production. The feasibility of sustainable organic food production in controlled settings is explored, especially for animal farming. The paper underscores agriculture's substantial greenhouse gas (GHG) emissions and the pressing need for action. It discusses the intricate relationship between agriculture and climate change, emphasizing the challenges in meeting emission reduction targets within the sector. In this article, Carbon Capture Storage (CCS) is explored as a viable method to reduce agricultural emissions. Additionally, EU policies such as the Carbon Border Adjustment Mechanism (CBAM) and EU Emissions Trading System (EU ETS), are designed to align agriculture with climate objectives. Integrating agriculture into CBAM presents challenges due to the absence of a carbon pricing mechanism. EU's policies and EU's CBAM in this paper are given just a good decarbonization model that can be implemented worldwide. Balancing environmental preservation, economic stability, and international relations is complex in agriculture, as a significant emitter of GHGs. Innovative strategies like Agricultural Sector Management and Carbon Absorption offer promise in reducing agricultural emissions. This study employs a triangulation approach and contributes significantly to the field of sustainable agriculture. It explores various aspects of sustainable agriculture, tackles challenges related to climate change, and presents decarbonization strategies. These findings have relevance for all who are involved in agriculture and environmental sustainability.
7

Naizi, Al Khun, and Zish Rahmen. "Effectiveness of Sustainable Agriculture and Industrial Agriculture in Africa." Journal Siplieria Sciences 2, no. 1 (April 11, 2021): 14–20. http://dx.doi.org/10.48173/jss.v2i1.80.

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The aim of this analysis is to examine the efficacy of sustainable farming in Africa and industrial farming. Sustainable agriculture as an approach to food production that combines agriculture's economic, social and environmental dimensions. The agricultural societies in Asia and Africa have effectively followed these values. The growing evidence and accessible scientific review of the creation of programs suggests that sustainable interventions can be highly successful to enhance productivity, promote protection of soil and water incomes and to ensure food safety; improve agricultural, wildlife and plant health; increase natural disasters and climate change resistance, minimize greenhouse gas emissions and promote societies. This demonstrates that the efficiency of organic farming has a positive influence in different countries on the future of agriculture.
8

Ahner, D. "Agriculture and agricultural policy in the European Union." Agricultural Economics (Zemědělská ekonomika) 49, No. 2 (February 29, 2012): 62–66. http://dx.doi.org/10.17221/5266-agricecon.

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The paper deals with the particular stages of development of the EU Common Agricultural Policy (CAP) in the last forty years. The process and impacts of CAP reforms are analyzed for the particular production industries of agriculture. The paper also presents a detailed description of Agenda 2000 and mid-term review of the Common Agricultural Policy in 2002 that brought about many proposals for the future working of CAP after accession of Central and Eastern European countries.
9

Střeleček, F., and J. Lososová. "Impact of Common Agricultural Policy on Czech agriculture." Agricultural Economics (Zemědělská ekonomika) 49, No. 11 (March 2, 2012): 497–514. http://dx.doi.org/10.17221/5439-agricecon.

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This contribution describes eight variants of the distribution of the direct payments and their impact on the farm economies in the years 2004–2006. For this purpose, selective set of 152 farms was divided in accordance with production regions: maize-growing, beet-growing, potato-growing, potato and oats-growing and uplands1. Possible demands for standard direct payments depending on the farm situation in 2002 and demands for payments set by different variants of the simplified system of direct payment distribution were figured to each of observed farms. To be comparable, individual bonuses were converted per 1 hectare of the farmland and to be considered more objectively, the eventual subsidies in terms of HRDP were calculated to the farms. In conclusion, all mentioned variants were compared from the point of view of their impact on the farm economies in different production and climatic regions.
10

Ramphul, O. "Agricultural exports and the growth of agriculture in India." Agricultural Economics (Zemědělská ekonomika) 59, No. 5 (May 28, 2013): 211–18. http://dx.doi.org/10.17221/118/2012-agricecon.

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The study empirically investigates the causality between agricultural exports and gross domestic product (GDP) agriculture in India using the Granger causality test via Vector Error-Correction Model over the period 1970–1971 to 2009–2010. The results of unit-root tests suggest that the series of India’s GDP agriculture and farm exports are integrated of order one. The results of the Auto Regressive Distributed Lag bounds testing approach to co-integration show that there is a positive and stable long-run equilibrium relationship between India’s agricultural exports and GDP of agriculture. We find a unidirectional causal link running from farm exports to gross domestic product of agriculture. It indicates that in India, agricultural products export Granger causes the growth in GDP of agriculture, which supports the export-led growth hypothesis. It is suggested that in order to accelerate the agricultural growth rate in India, there is a need to implement the policies encouraging the agricultural exports.  
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Статті в журналах Дисертації Книги

Дисертації з теми "Agriculture":

1

Liepins, Ruth. ""Women in agriculture" : a geography of Australian agricultural activism /." Connect to thesis, 1996. http://eprints.unimelb.edu.au/archive/00000215.

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2

Smith, J. T. "Commercial agriculture as a curriculum source for agricultural education." Thesis, University of Wolverhampton, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.379482.

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3

Camargo, Jose Marangoni. "Relações de trabalho na agricultura paulista no periodo recente." [s.n.], 2007. http://repositorio.unicamp.br/jspui/handle/REPOSIP/285483.

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Orientador: Angela Antonia Kageyama
Tese (dooutorado) - Universidade Estadual de Campinas, Insituto de Economia
Made available in DSpace on 2018-08-09T05:35:06Z (GMT). No. of bitstreams: 1 Camargo_JoseMarangoni.pdf: 4711327 bytes, checksum: b28d056a2d6b1974ab67522a40032e9d (MD5) Previous issue date: 2007
Resumo: Esta pesquisa tem como objetivos principais analisar as transformações técnico-produtivas ocorridas na agricultura paulista e os seus impactos sobre o emprego e as condições socioeconômicas da população ocupada no setor. O nível de emprego direto gerado pelas atividades agrícolas depende em grande medida da área cultivada, da composição das culturas e do desempenho da safra agrícola, sobretudo no curto prazo. O estágio tecnológico em que se encontram as culturas também é outra variável que afeta a ocupação agrícola. No caso específico de São Paulo, dado o esgotamento precoce de sua fronteira agrícola, a evolução da ocupação agrícola tem sido influenciada principalmente pelas mudanças da base técnica dos processos produtivos adotados pelos estabelecimentos agrícolas. Entre o início da década de 70 e meados da década atual, a agricultura paulista eliminou quase 700 mil postos de trabalho, o que representou uma redução de quase 40% da ocupação agrícola neste período. Observa-se também uma tendência de declínio da mão-de-obra residente nas propriedades, na medida em que quase 60% dos ocupados na agricultura paulista já residem fora das propriedades rurais em que exercem seu trabalho. Os assalariados temporários, que nos anos 80 tinham uma participação de 22% do total da população ocupada, passam a representar 19% em 2004. Concomitantemente, o novo ciclo de inovação tecnológica em curso na agricultura paulista a partir dos anos 90, apoiada, sobretudo na intensificação da mecanização em todas as fases do processo produtivo, tende a levar a uma preferência crescente por trabalhadores assalariados permanentes. Analisa-se também o comportamento da ocupação agrícola para as diferentes regiões do estado de São Paulo. Os dados sobre a ocupação agrícola para os anos 90 apontam que, apesar de todas as regiões apresentarem uma redução do emprego nesse período, os efeitos combinados de fatores como o grau de tecnificação das culturas, as mudanças dos indicadores desse nível de modernização e alterações nas áreas ou na composição das culturas, incidiram de forma diferenciada sobre as várias regiões do estado
Abstract: The main purpose of this study is to analyze the changes in production methods that have taken place in agriculture in São Paulo State and their impact both on jobs and the socio-economic conditions of the workers in this sector. The rate of direct employment generated by agricultural activities largely depends on the cultivated area, the crops grown and the abundance of the harvest, especially in the short term. The technological level of the agricultural activities is another factor that affects the numbers employed on the land. In the specific case of São Paulo, given the early exhaustion of the rural frontier, the evolving pattern of agricultural work has been influenced mainly by the changing technical basis of the production methods adopted by agricultural units. From the beginning of the 1970s until the middle of the present decade, agriculture in São Paulo lost nearly 700,000 jobs, representing a nearly 40% reduction in rural employment in the period. There is also a tendency for the resident work force to decline, since nearly 60% of those working on the land in São Paulo already live away from the rural properties where they do their work. The seasonal workers, who represented 22% of the total working population during the 1980s, fell to 19% in 2004. At the same time, the new cycle of technological innovation in progress in the agricultural sector in São Paulo since the 1990s, above all in the intensification of mechanization at all stages of the productive process, tends to favor a growing preference for permanent salaried workers. The profile of agricultural work in the different regions of São Paulo State is also analyzed. The numbers occupied on the land during the 1990s indicate that, while all regions suffered a reduction in the level of employment in that period, the combined effects of factors such as the degree of mechanization of cultivation, changes in the indicators of that level of modernization and alterations in the area under cultivation or type of crops had affected of differentiated form the various regions of the state
Tese (dooutorado) - Universida
Política Social
Doutor em Ciências Econômicas
4

Maiato, Adelaide Graça TChacussuñgama. "O papel da agricultura de conservação na luta contra a erosão do solo em particular em Angola." Master's thesis, Universidade de Évora, 2016. http://hdl.handle.net/10174/19167.

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A agricultura de conservação, conseguindo reduzir as perdas de solo por erosão e aumentando o seu teor em matéria orgânica, permite aos agricultores produzirem mais alimentos com menos trabalho. Oferece-lhes uma possibilidade de melhorar a sua qualidade de vida. Várias abordagens sobre agricultura de conservação do solo, incluindo rotação e consorciação de culturas, são componentes deste sistema aplicável a diferentes níveis. A sementeira direta e o menor distúrbio de solo, são princípios primordiais da conservação do solo, fornecem benefícios direitos para a agricultura e o meio ambiente, questões da maior relevância para a agricultura Angolana, apesar da pouca importância que atualmente lhes é dedicada. Logo, é preciso uma conversão e transição de tecnologias e técnicas para implementar a agricultura de conservação e o controle da erosão dos solos no país. As técnicas de conservação utilizadas pelos pequenos e grandes produtores, embora sejam bem-intencionadas, não oferecem a proteção contra a erosão do solo e a conservação da água. Tanto as entidades políticas, como o Programa de Acão do Ministério da Agricultura e do Desenvolvimento Rural (MINADER) e os agricultores angolanos devem entender a importância da agricultura de conservação para a segurança alimentar e dar continuidade para as gerações futuras. Não basta a reformulação e consolidação dos objetivos traçados no período de 2009 a 2013, sem que haja a aplicação prática. Portanto, para sair do atual conceito oficial de agricultura tradicional/convencional e optar para agricultura capaz de responder às necessidades de Angola é necessário seguir modelos semelhantes aos desenvolvidos por países tropicais de condições naturais semelhantes às de Angola; The role of conservation agriculture in the fight against soil erosion particularly in Angola ABSTRACT: Conservation agriculture, managed to reduce soil losses by erosion and to increase its content of organic matter, allow farmers to produce more food with less work. It offers them a chance to improve their quality of life. Several approaches to soil conservation agriculture, including rotation and intercropping, are components of this system applicable to different levels. Direct sowing and less soil disturbance, are key principles of soil conservation providiy benefits for agriculture and the environment, issues of great importance for the Angolan agriculture, in spite of the little importance that is currently dedicated to them. Therefore, we need a conversion and transition technologies and techniques to implement conservation agriculture and soil erosion control in the country. Conservation techniques used by small and large producers, although well-intentioned, do not offer protection against soil erosion and water conservation. Both political entities, such as the Program of Action of the Ministry of Agriculture and Rural Development (MINADER) and Angolan farmers should understand the importance of conservation agriculture for food security and continuity for future generations. Not just the redesign and consolidation of the objectives outlined in the period 2009 to 2013, without practical application. Therefore, to exit the current official concept of traditional / conventional farming and opt for agriculture able to meet the needs of Angola is necessary to follow models similar to those developed by tropical countries of natural conditions similar to Angola.
5

Glenna, Leland L. "On becoming ecologically rational : a social and environmental critque of agriculture /." free to MU campus, to others for purchase, 1997. http://wwwlib.umi.com/cr/mo/fullcit?p9841142.

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6

Lappas, N. "Agricultural co-operatives and changes in Greek agriculture since 1949." Thesis, University of Bradford, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.378116.

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7

Window, Marc. "Security in Precision Agriculture : Vulnerabilities and risks of agricultural systems." Thesis, Luleå tekniska universitet, Datavetenskap, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-74309.

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8

Delgado-Hernández, Eduardo José. "Level of involvement in sustainable agriculture activities among agricultural researchers in Venezuela /." The Ohio State University, 1998. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487951595500436.

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9

Kiriakopoulos, Nektarios. "Science and technolology : the case of Greek agriculture and agricultural industry." Thesis, University of Reading, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.401423.

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10

Alia, Didier Y. "AGRICULTURAL INPUT INTENSIFICATION, PRODUCTIVITY GROWTH, AND THE TRANSFORMATION OF AFRICAN AGRICULTURE." UKnowledge, 2017. http://uknowledge.uky.edu/agecon_etds/59.

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This dissertation studies agricultural input intensification, defined as the increased use of modern inputs such as hybrid seeds, mineral fertilizer, herbicide, and pesticide in African agriculture. It also analyses the potential of this intensification to accelerate productivity growth and tests the effectiveness of two policies, input subsidies and land reforms, in promoting it and consequently in increasing crop yield. In the first essay, we argue that to create the conditions for the emergence of a green revolution in Africa, modern agricultural technologies have to be adopted as a package, not in a piecemeal fashion. This argument is consistent with a conceptual framework that we develop to illustrate the importance of harnessing strategic complementarities among agricultural technologies by adopting them simultaneously rather than sequentially. Based on this framework, we propose a methodology to estimate an index to measure agricultural input intensification in its many dimensions. The index provides a simple and intuitive measure to quantify joint adoption of several inputs and compare it across plots, crops, farmers, and regions. Applying this methodology to maize producers in Burkina Faso and Tanzania, we show that our estimated index is a valid measure of joint input adoption and effectively captures the relative importance of each input as well as the number of different inputs adopted. Using the estimated index, we find that simultaneous adoption of modern inputs in Burkina Faso and Tanzania is limited but not rare. Most importantly, we find that the impact of the adoption of individual modern input on yield is increasing with the level of intensification for others. In the subsequent two essays, we assess the effectiveness of government’s direct intervention through input subsidies and indirect intervention through land reforms in promoting agricultural input intensification and increasing productivity. Our empirical analyses focus on Burkina Faso, a country that has recently implemented a fertilizer subsidy program and is undertaking profound land reforms to improve land tenure security and land transferability among households. The second essay tests the hypothesis that subsidizing only one input might promote or discourage the use of other inputs. We find that fertilizer subsidy for maize farmers in Burkina Faso crowds in the use of hybrid seeds and crop protection chemicals, but discourages the use of manure. The last essay assesses whether the development of rural land rental markets can facilitate land transferability among farmers and increase input intensification and productivity. The findings suggest that land rental transfers land from less talented or committed farmers to the more able but have minimal impact on input intensification. However, our results show that land renters are more productive and better farm managers. These results suggest that the short-term gains from policies that foster the development of land rental markets in Burkina Faso, and more generally Africa, will likely be in term of efficiency rather than widespread adoption of modern agricultural technologies.
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Книги з теми "Agriculture":

1

Economic Council of Canada. Study Paper 159. Canadian agricultural policy and Prairie agriculture. Ottawa: Economic Council of Canada, 1989.

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2

Fulton, Murray E. Canadian agricultural policy and Prairie agriculture. [Ottawa]: Economic Council of Canada, 1989.

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3

Mkomwa, Saidi, and Amir Kassam, eds. Conservation agriculture in Africa: climate smart agricultural development. Wallingford: CABI, 2022. http://dx.doi.org/10.1079/9781789245745.0000.

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Abstract This book is about Conservation Agriculture (the use of no tillage systems) to preserve soil structure and integrity. It has become an increasingly important step towards sustainable farming. This publication brings together conservation agriculture and climate smart decision making processes for the first time, focusing on Africa. This book brings to the fore scientific and empirical evidence about Conservation Agriculture in Africa, articulated by the Second Africa Congress on Conservation Agriculture (2ACCA) held in Johannesburg in 2018. It describes how farmers in Africa are successfully adopting Conservation Agriculture as an alternative to the unsustainable conventional farming practices and as a solution to loss of agricultural productivity, soil erosion and land degradation, climate change challenges and ever-increasing food insecurity. This work discusses how Conservation Agriculture can support the implementation of the African Union's Malabo Declaration and Agenda 2063 which calls for climate smart agricultural development. It provides development-oriented case studies and scientific evidence relevant to all stakeholders in the public, private and civil sectors who are engaged in building policy, institutional and human capacity to accelerate the mainstreaming of Conservation Agriculture across Africa.
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Andrei, J. V., and M. C. Dragoi, eds. The common agricultural policy and Romanian agriculture. Wallingford: CABI, 2019. http://dx.doi.org/10.1079/9781789242201.0000.

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Bechar, Avital, ed. Innovation in Agricultural Robotics for Precision Agriculture. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-77036-5.

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Robinson, G. M. Agricultural change: Geographical studies of British agriculture. Edinburgh: North British Pub., 1988.

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Peters, G. H. Agriculture. Boston, MA: Springer US, 1988. http://dx.doi.org/10.1007/978-1-4899-3448-2.

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Bowman, Keith. Agriculture. Morristown, N.J: Silver Burdett Press, 1987.

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Yates, C. St J. Agriculture. London: Cassell, 1989.

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Kissock, Heather. Agriculture. Calgary: Weigl Educational Publishers, 2007.

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Частини книг з теми "Agriculture":

1

Vieri, Marco, Daniele Sarri, Stefania Lombardo, Marco Rimediotti, Riccardo Lisci, Valentina De Pascale, Eleonora Salvini, Carolina Perna, and Andrea Pagliai. "Agriculture historical steps towards Sustainable Precision Agriculture." In Manuali – Scienze Tecnologiche, 1. Florence: Firenze University Press, 2020. http://dx.doi.org/10.36253/978-88-5518-044-3.01.

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The term precision agriculture were introduced into scientific literature by Jhon Schueller in the 1991 Meeting of the American Society of Agricultural Engineers (ASAE) in Chicago: “the continuous advantages in automation hardware and software technology have made possible what is variously knows as spatially-variable, or site specific crop production”. The concept of sustainable development was introduced in 1987 in the Bruntland Report and the term “sustainable agriculture” was defined in the 5th European Environmental action programme: Towards sustainability. In Agenda 2000, 5 main objectives founded Common Agricultura Policies toward 2020: competitiveness; food safety and quality; farmers’ wellness and proper income; environmental respect; new jobs opportunities for farmers’ communities
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Fereres, Elias, and Francisco J. Villalobos. "Agriculture and Agricultural Systems." In Principles of Agronomy for Sustainable Agriculture, 1–12. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-46116-8_1.

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Benech-Arnold, Roberto L., M. Verónica Rodriguez, and Diego Batlla. "Seed Dormancy Seed dormancy and Agriculture agriculture/agricultural , Physiology." In Encyclopedia of Sustainability Science and Technology, 9145–56. New York, NY: Springer New York, 2012. http://dx.doi.org/10.1007/978-1-4419-0851-3_192.

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Benech-Arnold, Roberto L., M. Verónica Rodriguez, and Diego Batlla. "Seed Dormancy Seed dormancy and Agriculture agriculture/agricultural , Physiology." In Sustainable Food Production, 1425–35. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-5797-8_192.

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Tisdell, Clement. "Agriculture and Agricultural Research Priorities." In Economic Development in the Context of China, 101–16. London: Palgrave Macmillan UK, 1993. http://dx.doi.org/10.1057/9780230380189_7.

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Nelson, William M. "Smart agriculture through agricultural chemistry." In Sustainable Agricultural Chemistry in the 21st Century, 189–215. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003157991-11.

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Harrison, Joseph. "Agriculture." In The Spanish Economy, 34–40. London: Palgrave Macmillan UK, 1993. http://dx.doi.org/10.1007/978-1-349-12717-7_4.

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Mitchell, B. R. "Agriculture." In International Historical Statistics Europe 1750–1988, 199–406. London: Palgrave Macmillan UK, 1992. http://dx.doi.org/10.1007/978-1-349-12791-7_3.

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Mitter, Hermine, Martin Schönhart, Ina Meyer, Klemens Mechtler, Erwin Schmid, Franz Sinabell, Gabriel Bachner, and Birgit Bednar-Friedl. "Agriculture." In Economic Evaluation of Climate Change Impacts, 123–46. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-12457-5_8.

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Wakeford, Jeremy J., and Jeremy J. Wakeford. "Agriculture." In Preparing for Peak Oil in South Africa, 49–61. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-9518-5_4.

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Тези доповідей конференцій з теми "Agriculture":

1

Şahinkoç, Ender Mehmet, and Kadir Öncel. "Principles of Ecological Agriculture and Ecological Agriculture Data in Turkey." In International Conference on Eurasian Economies. Eurasian Economists Association, 2022. http://dx.doi.org/10.36880/c14.02663.

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Despite the increase in the human population, the unmet nutritional needs required rapid advances in agriculture. The use of excessive and unconscious chemicals to increase agricultural output has become harmful to natural life. In response to the destruction of natural life by industrial agricultural practices, ecological farming practices have emerged and gained value in recent years. These activities, which are briefly named as ecological agriculture, are "a method of agricultural production without the use of harmful chemicals, without the destruction of the natural area in the production process". In this study, the official ministry data was used while the ecological agriculture examination was carried out for Turkey over the years. By analyzing these data, a study was conducted on the data of ecological agricultural areas in Turkey, the number of farmers engaged in ecological agriculture and the number of products obtained from this production process. Lastly, SWOT analysis was made based on ecological agriculture and conventional agriculture research. In the conclusion part of this study, attention was drawn to the necessity of ecological agriculture for humanity to lead a healthy and sustainable future. The first and most important step in realizing this is to inform those working in the agricultural field about ecological agriculture. Agricultural production should be supported with solutions that will facilitate the farmer's hand, such as leasing by state institutions. Irrigation facilities and clean air conditions required for ecological agriculture can be provided by the states.
2

Abashidze, Giorgi. "Digital agriculture - technological means and possibilities of digital transformation of agriculture." In 24th International Scientific Conference. “Economic Science for Rural Development 2023”. Latvia University of Life Sciences and Technologies. Faculty of Economics and Social Development, 2023. http://dx.doi.org/10.22616/esrd.2023.57.001.

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In the last 20 years, the extensive integration of digital technologies has led to considerable changes in all industries, including agriculture. As a result, the agricultural sector has undergone a digital transformation. This shift has become increasingly necessary due to the many challenges faced by modern-day agriculture, such as rising temperatures, changing seasons, frequent extreme weather conditions, low availability of water resources, and decreased soil fertility. It is now evident that traditional farming methods are inadequate for achieving efficiency in agriculture, and innovative methods are essential. One such approach is digital agriculture, also known as smart agriculture or e-agriculture. This cutting-edge method utilizes digital technologies to collect, process, analyze, and disseminate information, enabling real-time decision-making in response to changing external factors. Considering given factors, the paper discusses the main directions of the digital economy that could impact agriculture. It evaluates existing examples and models of digital agriculture, while identifying possible ways to apply digital technologies in the agricultural sector. Based on thorough research, the final section of the paper offers practical recommendations that can serve as useful tools for developing countries as they transition towards the digital transformation of agriculture. The research findings make it clear that digital technologies have become a critical component of modern-day agricultural activities. Without their integration, it would be impossible to sustain productive agricultural activities, meet the global demand for food, and respond adequately to changing environmental factors.
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Soytong, K., J. J. Song, and R. Tongon. "Agricultural Inputs for Organic Agriculture." In International Seminar on Promoting Local Resources for Sustainable Agriculture and Development (ISPLRSAD 2020). Paris, France: Atlantis Press, 2021. http://dx.doi.org/10.2991/absr.k.210609.079.

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Bilgili, Faik, and Hayriye Hilal Bağlıtaş. "Environmental Sustainability And Agriculture." In International Conference on Eurasian Economies. Eurasian Economists Association, 2014. http://dx.doi.org/10.36880/c05.01042.

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In the environmental sustainability concept, this paper investigates the relationship between agricultural emission and per capita income. Additional variable is agriculture sector energy consumption. Our data is related to 1990-2010 period for 22 countries which are in the Eurasian region. Firstly, dynamic OLS and full modified OLS are applied to the data. The results show that Environmental Kuznet Curve (EKC) hypothesis is valid for agricultural emission and income. Moreover, there is a co-integration relationship between agricultural emission and both income and agricultural energy consumption. Secondly, dynamic panel GMM and dynamic OLS are applied to little modified data. Results again, imply that EKC is true for agriculture sector. Based on these results, political and intuitional regulations could be developed for environmental sustainability.
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Freire, Maria, and Isabel Joaquina Ramos. "Agricultura em espaço urbano: dinâmicas antigas e recentes: o caso estudo da cidade de Évora." In Seminario Internacional de Investigación en Urbanismo. Barcelona: Maestría en Planeación Urbana y Regional. Pontificia Universidad Javeriana de Bogotá, 2014. http://dx.doi.org/10.5821/siiu.6072.

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O objetivo da investigação é melhorar o entendimento sobre o significado da componente agrícola em espaço urbano para as sociedades e perspetivar estratégias no sentido de promover o património solo agrícola e a permanência e sustentabilidade do uso agrícola em espaço urbano. Se, no passado, a componente agrícola urbana estava intrinsecamente ligada aos domínios sociais e económicos, no presente relaciona-se ainda com os domínios ecológicos e pedagógicos. Esta presença traduz-se numa maior proximidade à natureza, como forma de procura de maior qualidade de vida urbana, combinando-se com os anteriores domínios sociais e económicos, mais pronunciados em tempo de crise. A investigação assenta nos conceitos de agricultura e de solo agrícola e aprofunda-se no conceito de paisagem global. É exemplificada com a cidade de Évora, através da análise da dinâmica de evolução urbana, associada à agricultura em espaço urbano. The aim of the research is to improve the understanding of agriculture in urban areas for societies and to outline strategies to promote agricultural soils patrimony and the maintenance and sustainability of agricultural use in urban space. If, in the past, urban agriculture was particularly linked to the social and economic domains, today it is also intensively related to the ecological and educational ones. This means a closer relation with nature, in order to achieve a better quality of urban life, simultaneously with the social and economic fields, more evident in a time of crisis. The research is based on the concepts of agriculture and agricultural soils and is deepened in the concept of global landscape. It is illustrated with the city of Évora, by the analysis of the dynamics of urban evolution associated with agriculture in urban space.
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Mrvica Mađarac, Sandra, Zvonimir Filipović, and Sandra Jurić. "Analysis of Agriculture in the European Union." In Sixth International Scientific Conference ITEMA Recent Advances in Information Technology, Tourism, Economics, Management and Agriculture. Association of Economists and Managers of the Balkans, Belgrade, Serbia, 2022. http://dx.doi.org/10.31410/itema.2022.373.

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With its agricultural policy, the European Union wants to encour­age member states to invest in agricultural production, production and pro­motion of quality agricultural products, care for the environment, develop­ment of rural areas, increase market transparency, and encourage innova­tion in agriculture. The main challenges for agricultural production in the European Union are global market competition, economic and political cri­ses, climate change and rising costs of production factors. The European Union wants to provide support for the sustainable income of agricultural holdings and the stability of the agricultural sector, and it contributes great­ly to the financing of agriculture in the member states. In this way, the aim is to ensure the long-term security of the food supply and the agricultural diversity of the member states. The paper states the objectives of the agri­cultural policy of the European Union, researches and analyzes data on the number of employees in agriculture, the age structure of farmers, the size of agricultural holdings, agricultural and livestock production, fishing and promotional activities of agricultural production in the European Union.
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BESUSPARIENĖ, Erika. "SINGULARITY OF SUSTAINABLE TAXATION IN AGRICULTURE." In RURAL DEVELOPMENT. Aleksandras Stulginskis University, 2018. http://dx.doi.org/10.15544/rd.2017.232.

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Agricultural sector is different from industrial or service sectors due to its specific functions, i.e. food function, social function, economic situation on country growth function, environmental function. These functions of agricultural sector include three dimensions (economic, social, environmental), which are closely connected with the conception of sustainable development. Therefore, the taxation system of agricultural sector has been orientated to sustainability. The research direction of sustainable taxation is relevant. This research direction leads to opportunities to find the sustainable taxation system effect to the sustainable development of agriculture. The paper aims at disclosing the singularity of sustainable taxation in agriculture. To investigate the theoretical aspect of the specificity of agricultural business in the context of taxation and singularity of sustainable taxation, systemic analysis and synthesis of theoretical insights of foreign and local scientific literature as well as the methods of induction and deduction have been applied. Theoretical research results helped to identify singularity of sustainable taxation in agriculture, which encompasses three dimensions (economic, social, environmental) with different characteristics. This taxation system contributes to the goals of the development of sustainable agriculture.
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D.S., Permyakov, and Noskov A.G. "PROSPECTS OF USING UAVS IN AGRICULTURE." In OF THE ANNIVERSARY Х INTERNATIONAL SCIENTIFIC AND PRACTICAL CONFERENCE «INNOVATIVE TECHNOLOGIES IN SCIENCE AND EDUCATION» («ITSE 2022» CONFERENCE). DSTU-Print, 2022. http://dx.doi.org/10.23947/itse.2022.240-244.

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The purpose of the study: Regularized solutions for intelligent agriculture, including the use of unmanned aerial vehicles (UAVs), are considered for agricultural applications. UAVs combine information and communication technologies, robots, artificial intelligence, big data and the Internet of Things. Agricultural UAVs have great capabilities, and their use has expanded in all areas of agriculture, including pesticide and fertilizer spraying, seed sowing, as well as growth assessment and mapping. Accordingly, it is expected that the agricultural UAV market will continue to grow with the corresponding technologies. The article discusses the latest trends and areas of application of advanced technologies related to agricultural UAVs, control technologies, equipment and developments. Variants of the use of UAVs in real agricultural conditions on the example of the Kaliningrad region are given.
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Petrova-Hristova, Kristina. "Bulgarian Agriculture – Principles, Traditions and Development of the Organic Agriculture." In Sixth International Scientific Conference ITEMA Recent Advances in Information Technology, Tourism, Economics, Management and Agriculture. Association of Economists and Managers of the Balkans, Belgrade, Serbia, 2022. http://dx.doi.org/10.31410/itema.2022.381.

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Agriculture as a traditional branch has a strategic importance for Bulgaria, not only because it ensures food security, and creates raw materi­als for many other industries and sectors of the national economy, but also provides work and income for a significant part of the population in rural areas. When we talk about agriculture as an economic activity we must al­ways consider it in direct correlation with rural areas and their vitality. The sector is among the most dynamically developing in terms of moderniza­tion, robotization, digital transformation, also provoked by the ambitious goals related to climate and green challenges on a global scale. Precisely the agricultural sector is at the center of the circular economy and bio-based societies, preservation and development of the regions, and is in close con­nection with the development of science – from applied to the top – called to carry humanity into the next era. Bulgarian agriculture has deep tradi­tions in society, its history can be traced back in time. But in the circumstanc­es of globalization, facilitating access to imported food, it is important to increase the competitiveness of Bulgarian agricultural products. In recent years, there is more and more talk about ecologically clean production, and Bulgaria is no exception because it is making serious attempts to develop or­ganic agriculture in the country.
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Pérez-Pons, María-Eugenia, Javier Parra-Dominguez, Juan Manuel Corchado, Jonas Queiroz, and Paulo Leitão. "Technological Applications for Sustainable Agriculture : A trinomial." In Proceedings of the IV Workshop on Disruptive Information and Communication Technologies for Innovation and Digital Transformation: 18th June 2021 Online. Ediciones Universidad de Salamanca, 2022. http://dx.doi.org/10.14201/0aq03152533.

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In recent years, technological development has made it possible to implement sustainability-oriented solutions in the agricultural sector, leading to significant improvements. The practical application of information and communication technologies and of blockchain technology in agriculture, gives a deeper digital meaning to agricultural challenges and possibilities. This article addresses the trinomial: technology, agriculture and sustainability. The present research reviews some examples of the application of those technologies in real-world scenarios, as well as their evolution and contribution to agricultural sustainability.

Звіти організацій з теми "Agriculture":

1

Hertel, Thomas, Kym Anderson, Joseph Francois, and Will Martin. Agriculture and Non-agricultural Liberalization in the Millennium Round. GTAP Working Paper, September 2000. http://dx.doi.org/10.21642/gtap.wp08.

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Much remains to be done before agricultural trade is as liberal as world trade in manufactures. But agriculture is distorted by more than agricultural policies. In developing countries especially, farming is discouraged not only by farm protection policies in high-income countries but also by those countries' own manufacturing policies and distortions to services markets. This paper explores the extent to which multilateral liberalization of not only farm but also non-farm policies would affect welfare and the markets for farm products. It projects the global economy to 2005, when the Uruguay Round (UR) implementation will be complete, and assesses the potential impact of further cuts from that post-UR base. This is done using a modified version of the GTAP model of global trade, assuming 40% cuts in protection in agriculture, mining and manufacturing, and services. Results suggest agricultural and industrial liberalizations could yield similar-sized benefits for the global economy in 2005. However, the distributions of gains from those cuts are quite different as between rich and poor countries. We also examine the interaction between non-agricultural reforms and agricultural trade balances. For some regions, most notably for China, non-agricultural reforms dominate and reverse the sign of the change in the food trade balance following liberalization of both farm and non-farm trade. This suggests policy makers concerned with food and agriculture need to give attention also to non-agricultural policy reforms. Keywords: WTO, multilateral trade negotiations, manufacturing trade reform, agricultural distortions JEL Codes: F13, F14, F17, Q17
2

Caunedo, Julieta, and Namrata Kala. Mechanizing Agriculture. Cambridge, MA: National Bureau of Economic Research, July 2021. http://dx.doi.org/10.3386/w29061.

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3

Jales, Mário Queiroz de Monteiro, Colin A. Carter, Marcos Sawaya Jank, and Shunli Yao. Agriculture in Brazil and China: Challenges and Opportunities. Inter-American Development Bank, October 2006. http://dx.doi.org/10.18235/0008570.

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This paper analyzes the asymmetries and complementarities between Brazil's and China's agricultural sectors. Brazil and China are key players in world agriculture. Both countries are among the world's top five producers and exporters of agricultural products and have a significant portion of their population working in agriculture. However, four significant facts profoundly differentiate Brazilian and Chinese agriculture. First, while Brazil has one of the world's most liberal agricultural sectors, Chinese agriculture remains under strong state intervention, particularly in its foreign trade. Second, while the agricultural sector accounts for a very significant portion of Brazil's total exports, in China its share in total foreign sales is almost negligible. Third, while Brazil is a net exporter of agricultural products, China is now a net importer. Finally, while Brazil is the country with the greatest potential to expand its planted area in the world, China's agriculture has little land available for expansion and is in fact under severe pressure from urbanization and the development of other productive sectors.
4

Boye, Greta, and Winston Ramautarsing. Revitalizing Agriculture in Suriname. Inter-American Development Bank, May 1997. http://dx.doi.org/10.18235/0008717.

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Suriname faces unprecedented challenges in transforming its agricultural sector to a market based system, and it will need to offset the deterioration of the sector resulting from the probable loss of its preferential markets in the next decade. This study seeks to contribute to the understanding of the measures that are necessary to address the constraints on agricultural growth and development. The analysis builds on discussions that took place in May 1996 with government officials, representatives of private sector organizations and international agencies. Based on field work and subsequent analyses, this report offers recommendations on actions needed to sustain and enhance the growth of Surinam¿s existing export products, promote the emergence of promising new products, and strengthen institutions that support both of those activities. The study includes a general introduction and background information on the contribution of agriculture to the economy and the performance of agriculture, the main constraints on the growth and development of the sector, key factors affecting competitiveness, Government¿s plans for development in the area and, finally a strategy for revitalizing the agricultural sector in Suriname. The rationale for revitalizing the agricultural sector is to increase national income ad to foster the economic and social development of Suriname. Since agriculture is a sector of vital importance to the Surinamese economy, it provides a good vehicle for achieving this aim.
5

Barooah, Prapti, Muzna Fatima Alvi, Claudia Ringler, and Vishal Pathak. Gender, agriculture policies and climate smart agriculture in India. Washington, DC: International Food Policy Research Institute, 2023. http://dx.doi.org/10.2499/p15738coll2.136537.

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6

Whiteside, Martin. From Field Research to Policy Change - Lessons from FAC and APRA. Institute of Development Studies (IDS), July 2021. http://dx.doi.org/10.19088/apra.2021.019.

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The Institute of Development Studies has led consortia of UK and African organisations in two large programmes of agricultural policy research: the original Future Agricultures Consortium programme, running from 2005 to 2014, and the successive Agricultural Policy Research in Africa programme, from 2016 to 2022. These programmes involved African field research teams, linked to African Universities, and conducting policy-relevant research into key issues relative to the future of agriculture in Africa and inclusive agricultural commercialisation (APRA). A component of both programmes was to use the evidence collected to influence the policy environment in favour of productive, sustainable, and inclusive agriculture. This paper explores what has been learnt in these two programmes about using field research evidence to improve agricultural policy.
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Headey, Derek D., and William A. Masters. Agriculture and undernutrition. Washington, DC: International Food Policy Research Institute, 2020. http://dx.doi.org/10.2499/9780896293830_10.

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Wentworth, Jonathan, Giulia Cuccato, and Rebecca Nohl. Trends in Agriculture. Parliamentary Office of Science and Technology, November 2018. http://dx.doi.org/10.58248/pn589.

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In the last century, agricultural production intensified, but this increased its impacts on the environment, waste in supply chains and in some regions of the world, disconnected it from people’s lives. Projections of global population growth and changing consumption patterns out to 2050 suggest further increases in food production will be needed. This POSTnote outlines key drivers of global agricultural trends and the challenge of safeguarding both food production and environment value in a changing world.
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Sevanto, Sanna. Climate Resilient Agriculture and Soil Improvements -Agriculture in Marginal Lands. Office of Scientific and Technical Information (OSTI), May 2023. http://dx.doi.org/10.2172/1974909.

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Rubin, Deborah, Brenda Boonabaana, and Cristina Manfre. Building an inclusive agriculture: Strengthening gender equality in agricultural value chains. Washington, DC: International Food Policy Research Institute, 2019. http://dx.doi.org/10.2499/9780896293649_06.

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