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No Thumbnail AvailableProjectProgramme / project reportFisheries: socio-economic analysis and policy
Assistance to Fisheries Research Institute, Bangladesh
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Book (stand-alone)Technical studyA Sub-regional Analysis of the Socio-Economic situation of the Eastern Mediterranean Fisheries 2016
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No results found.Within the framework of the FAO EastMed project, a Working Group on the socio-economic analysis of the fisheries sector in the Eastern Mediterranean was conducted in Athens, Greece from the 2-6 of November 2015. The goal of the working group was to contribute to the understanding of the socio-economic situation of fishing fleets in the Eastern Mediterranean countries, with a view to support economic advice in fisheries management. This report is the result of the working group and compares selec ted fisheries socio-economic indicators, including harvesting cost structure and profitability of main fleet segments. During the working group data was compiled from the Eastern Mediterranean, including Cyprus, Egypt, Palestine (Gaza Strip), Greece, Italy (Ionian Sea), Lebanon and Turkey. For the EU countries the data derived from the EU Data Collection Framework (2010/93/EU) was used, while for the non-EU areas the data was derived from the socio-economic surveys which are currently being co nducted within the framework of the FAO EastMed project. Data from Turkey was derived from the Turkish Statistical Institute. The data collected by both the EU and non-EU areas follow a comparable standard methodology, and using these data sets, socio-economic indicators were estimated and compared among countries and fleet segments in the region. The economic performance of 25 fleet segments from the seven areas mentioned above were analyzed and compared for the year 2012. The fisheries secto r in the region including the Black Sea Turkish production, produced a total of 581 thousand tons of seafood with an estimated value of $1.6 billion. The fishing fleet directly employed 80,017 people on a full-time basis working onboard 40,436 vessels. According to the data presented in this report, the value added generated by fisheries made up 0.05% of the total GDP generated in the region, employing less than 1% of the labour force. However, in the coastal communities of the region it repre sented an important source of employment, income and a highly valuable source of animal protein. In terms of profitability, the best performances were showed in Egypt, Lebanon and Italy, while the worst performance was found in Gaza Strip, where the activity was not profitable. In the vast majority of the fleet segments analysed, crew members are paid with a share system where the running costs are subtracted from the revenues before allocating the shares to the crew members and to the owner. Th e salary per fisher compared to the minimum wage of the manufacturing sector, was lower in Gaza and Lebanon, and higher in Egypt. The ratio of energy costs to operating costs showed the highest value in the fleets operating in Gaza, where energy costs are at an unsustainable level, which is detrimental with respect to the salaries of the workers and the remuneration of the investments. The fuel efficiency showed the highest values in Turkey, and the lowest in Italy where all the fleet segments s cored an extremely low value. The comparison of the breakdown of the cost factors showed that labour and energy were in general the primary costs associated with fishing, although their proportion varies among countries, depending on many factors, such as the fleet structure, the harvesting methods and the fuel subsidies/taxes. In general, vessels using active fishing gears (i.e. trawlers) are more dependent on fuel and have the energy costs accounting for a larger proportion of the operational costs while, for the artisanal vessels using passive gears, labour represents the larger proportion of the operational costs. Salaries can absorb as much as half of the total operating costs in small-scale fisheries, with the exceptions of Gaza and Turkey where the labour costs were below 20%. -
DocumentOther documentSocio-economic performance of the fisheries and aquaculture in the IOC space 2014
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Book (series)Technical studySmall-scale aquaponic food production – Integrated fish and plant farming 2014This technical paper begins by introducing the concept of aquaponics, including a brief history of its development and its place within the larger category of soil-less culture and modern agriculture. It discusses the main theoretical concepts of aquaponics, including the nitrogen cycle and the nitrification process, the role of bacteria, and the concept of balancing an aquaponic unit. It then moves on to cover important considerations of water quality parameters, water testing, and water sourci ng for aquaponics, as well as methods and theories of unit design, including the three main methods of aquaponic systems: media beds, nutrient film technique, and deep water culture. The publication discusses in detail the three groups of living organisms (bacteria, plants and fish) that make up the aquaponic ecosystem. It also presents management strategies and troubleshooting practices, as well as related topics, specifically highlighting local and sustainable sources of aquaponic inputs. The publication also includes nine appendixes that present other key topics: ideal conditions for common plants grown in aquaponics; chemical and biological controls of common pests and diseases including a compatible planting guide; common fish diseases and related symptoms, causes and remedies; tools to calculate the ammonia produced and biofiltration media required for a certain fish stocking density and amount of fish feed added; production of homemade fish feed; guidelines and considerations fo r establishing aquaponic units; a cost–benefit analysis of a small-scale, media bed aquaponic unit; a comprehensive guide to building small-scale versions of each of the three aquaponic methods; and a brief summary of this publication designed as a supplemental handout for outreach, extension and education.
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BookletCorporate general interestEmissions due to agriculture
Global, regional and country trends 2000–2018
2021Also available in:
No results found.The FAOSTAT emissions database is composed of several data domains covering the categories of the IPCC Agriculture, Forestry and Other Land Use (AFOLU) sector of the national GHG inventory. Energy use in agriculture is additionally included as relevant to emissions from agriculture as an economic production sector under the ISIC A statistical classification, though recognizing that, in terms of IPCC, they are instead part of the Energy sector of the national GHG inventory. FAO emissions estimates are available over the period 1961–2018 for agriculture production processes from crop and livestock activities. Land use emissions and removals are generally available only for the period 1990–2019. This analytical brief focuses on overall trends over the period 2000–2018. -
BookletHigh-profileFAO Strategy on Climate Change 2022–2031 2022The FAO Strategy on Climate Change 2022–2031 was endorsed by FAO Council in June 2022. This new strategy replaces the previous strategy from 2017 to better FAO's climate action with the Strategic Framework 2022-2031, and other FAO strategies that have been developed since then. The Strategy was elaborated following an inclusive process of consultation with FAO Members, FAO staff from headquarters and decentralized offices, as well as external partners. It articulates FAO's vision for agrifood systems by 2050, around three main pillars of action: at global and regional level, at country level, and at local level. The Strategy also encourages key guiding principles for action, such as science and innovation, inclusiveness, partnerships, and access to finance.