The abbreviation FICA(Atmospheric Research Center) means : Federal Insurance Contributions Act
The acronym FICA stands for: (Atmospheric Research Center) Federal Insurance Contributions Act
FICA acronym (Atmospheric Research Center) means: Federal Insurance Contributions Act
Popular questions of FICA people search before coming here
Q: What does FICA stand for? A: FICA stands for "Federal Insurance Contributions Act".
Q: How to abbreviate "Federal Insurance Contributions Act"? A: "Federal Insurance Contributions Act" can be abbreviated as FICA.
Q: What is the meaning of FICA acronym? A: The meaning of FICA acronym is "Federal Insurance Contributions Act".
Q: What is FICA abbreviation? A: One of the definitions of FICA is "Federal Insurance Contributions Act".
Q: What does FICA mean? A: FICA as abbreviation means "Federal Insurance Contributions Act".
Q: What is shorthand of Federal Insurance Contributions Act? A: A common acronym of "Federal Insurance Contributions Act" is FICA.
Like to add another meaning of the acronym/abbreviation FICA?
Astrological/horoscope meaning of FICA. FICA means:
The world population is approximated to increase to more than 9 billion by 2050, mainly in developing countries. Therefore, it is important to transfer sustainable agriculture practices or principles effectively and efficiently from one region to another or from industrialized to developing countries.
What therefore is Sustainable Agriculture? This can be defined as adopting productive, competitive and efficient production practices, while improving or maintaining the natural environment and global ecosystem, as well as the socioeconomic conditions of local communities.
Conventional agriculture differs in that its goal is to maximise yields and economic returns and usually carry out with little regard for the environment and the impact on society.
On the other hand, sustainable agriculture is designed to address problems like environmental pollution from excessive use of fertilisers and also to arrest the collapse of farm economies because of rising production costs and to preserve social integrity.
The challenge for Africa is sustainable intensification of agriculture (increased production per unit of land). In addition, the amount of land in agricultureBas du formulaire in some regions of Africa can potentially be expanded. This projections indicate that a good number of countries could make much progress toward reducing poverty and food and nutrition security in the next 15–20 years by applying strategies targeting policies and investment that raise average crop productions, and increase livestock numbers by 50 percent, and accelerate overall gross growth rates of domestic products to 6.5–8.0 percent and the agricultural sector growth rate to 6 percent. Many experts agree that to achieve such a level of growth would require a commitment among governments to reallocate up to 10 percent of their national budgets to agriculture, raise from an average of 5 percent over the past decade continent-wide and only 4 percent in sub-Saharan Africa (World Bank & African Union Report, 2008).
Science & Technology Recommendations to Increase Food Security in Africa
Encourage the conservation and the sustainable and equitable use of biodiversity management.
There are twelve (12) major areas of agricultural science and technology, policy, agricultural-supporting infrastructure, and development process that are critical for the United States and have relevance, with appropriate adaptation, to African sustainable agricultural development.
Sustainability is ultimately defined by the objectives and goals
Sustainability is a process of moving toward identified goals, but progress could be made in many different ways or by using a combination of different technics. The technics for achieving different sustainability objectives are specific to particular regions, and as such will require creation of interdisciplinary research and education institutions at every level, from national and regional to local, with effective mechanisms to exchange information and knowledge.
Sustainable systems need to be efficient in resource use, productive, and robust.
System attributes that are important for sustainability, productivity, and robustness (having a combination of resistance, resilience, and adaptability to stress and changing conditions). Put another way, a system needs to be endorse with the ability to continue meeting identified goals in the event of unpredictable weather and fluctuations in cost and availability of inputs to be sustainable.
Indicators and criteria are needed to assess progress toward achieving sustainability goals.
Criteria for assessment and well-designed indicators of progress toward sustainability are needed at each level from the global to regional, national, and community levels. “Sustainability” has priority objectives and time frames when very poor farmers are striving to move toward greater quality of life, productivity, and resource stabilization, which indicators need to reflect. For instance, ensuring adequate productivity is critical for short-term survival, as is sufficient system robustness to prevent yields falling below critical levels over the longer term.
Integrated systems approach that encompasses technological, ecological, and socioeconomic elements should be prioritized.
If the four sustainability goals must be addressed, then substantial efforts is needed to develop new technologies to use integrated systems approaches to assess performance characteristics and the socioeconomic, agroecological, and environmental drivers operating in the farming system. Integrated studies of performance and the various drivers are vital to identify synergies among different management practices or barriers to adoption of different practices.
Farmer participation in research is very important to ensure research is locally relevant.
Agricultural research that is locally relevant is necessary and can be achieved by consulting with and actively involving clients, notably farmers. Potential ways to address this problem include increasing collaboration with social scientists, involving farmers in setting research priorities, and increasing participatory and interdisciplinary work at the core research institutions.
It is important to consider the social, market, and policy environments within which farming systems are embedded.
Farms and the technologies and principles used in their management are nested in changing and fluctuating social, include involving farmers in setting research priorities, and economic environments. This account stresses the importance of markets, knowledge institutions, policies, and local resource conditions in shaping the ability of farmers to move toward sustainability goals.
A major investment in institution-building is required to advance African agriculture.
The lack of well-funded and well-equipped research and education institutions is a serious problem facing much of Africa. The infrastructural lack is related to a lack in government investment.
Adoption and development of better technologies to address abiotic and resource constraints will be critical.
Digital innovations and development will provide new tools and practices to increase agricultural production and achieve other sustainability goals at the same time.
Technologies are required to effectively address biotic constraints to production.
Losses to pests, diseases, and weeds are substantial in developing countries, with about 40 percent of potential productions lost to diseases and insects in Africa. The use of synthetic pesticides in those countries is likely to be limited because of cost and access constraints; therefore, strategies like integrated pest management (IPM), use of resistant crop varieties, biopesticides, development of disease-suppressive soils, and biological control could be as or more important than synthetic pesticides
Genetic improvement of both animals and crops will play an important role in the sustainable intensification of African agriculture.
Active plant-breeding programs are essential for agricultural systems to respond to changing biotic and abiotic constraints that affect crop yield. Host plant resistance is especially important for farmers with limited resources to purchase and use external inputs, such as biopesticides. Also, tolerance to abiotic stresses such as drought, flood, and heat are increasingly important, especially for rain-fed agricultural systems. Unfortunately, donor and government support has not kept up with the needs of many developing countries for public plant-breeding programs.
Sustainability and productivity could be improved by increased crop and livestock integration.
The ability to feed crops to livestock enables producers to capture and potentially recycle nutrients back to farm fields. This helps to reduces the need for purchased fertilizers and enhances desirable soil attributes such as water-holding capacity, organic matter, and soil structure
Many processes and issues need to be addressed by landscape- and watershed-level planning and analysis.
Sustainability and robustness of agroecosystems are defined by economic, social, and environmental characteristics at the farm, landscape, and regional levels. The scale and diversity of individual enterprises on the landscape is an important determinant, for instance, nutrient and water movement and vulnerability to extreme events. Also, higher-level catchment technics are needed to optimize land and water use, address competition for water, and avoid developing overdrafts
Embracing technology, like GPS, on a realistic scale is the responsible approach to helping global agriculture. It’s all about easier-to-use technology, smart technology, and more practical use of the machinery and tools.
For the livestock industry, big data is an incredible resource. Technology innovation is a solution to productivity which is the solution for sustainability. The company is able to create reports based on data submitted by customers to share effective practices with other producers.
The fertilizer industry is well aware that it needs to adapt and improve as technology continues to revolutionize farming. Availability of good fertilizers is an important issue for developing countries. Creating a product that can be produced at scale and that is affordable for all farmers is the real challenge the industry faces.
Nearly one third of the global population depends on agriculture for a living, and growth in this sector has been proven to be at least twice as effective at reducing poverty as growth in other sectors. But progress is frustratingly slow. The average American maize farmer, for instance, produces five times more per hectare than the average African grower.
A variety of new digital applications are now accelerating interventions that have been shown to improve productivity and growth in this sector. A platform known as Connected Farmer (mobile product started in East Africa), for instance, helps farmers work with agribusinesses and better manage their own crops and finances.
Generally, there are great promises in digital solutions that are addressing three key constraints in agriculture; mainly resilience, scale, and market incentives.
This is achieved through mobile platform or online business sites. Farmers are easily linked to wider market for their farm products and an easy and secure mode of payment into their digital wallet. With the touch of a few buttons, a process that used to take days weeks or even months is now complete.
From middlemen for farmers without a safety net, these challenges can quickly turn into catastrophes.
Through products such as Connected Farmer, farmers get mobile payments and receipts whenever they sell to an agribusiness on the platform. It also gives financial history to the phone of thousands of farmers. Better records could make them more attractive customers for bank, ultimately providing easy access insurance, credit, and other financial tools.
Furthermore, online resources and mobile applications are removing guesswork from planting and maintaining crops by providing up-to-date weather information and agronomic tips.
After managing these challenges, farmers still need stable, sizeable markets for their crops. Online and mobile platforms can register farmers, provide extension services, make payments, extend farmer loans, manage contracts, and provide online (email) or SMS receipts.
Deliveries and other tasks are still done manually (by person), of course, but mobile supply chain management now makes working together vastly easier for buyers and farmers.
Are these solutions sustainable enough to last? This is the ultimate question that remains unanswered in this particularly tricky sector of agriculture, where farmer “clients” are often prone to risk, with limited ability to pay.
Internet and mobile applications are changing the way livestock and crop farmers tend their cows; get micro-insurance against bad weather; or determine the most scientifically optimal time to plant crops.
The ultimate success of any strategy depends not so much on a “blue sky” approach as an on-the-ground understanding. How do farmers actually operate on a daily basis, and what do they care about most? Which approaches can best trade on this information to help farmers achieve real change over the long term? What are the incentives among market actors in an agricultural system?
The global food demand is expected to increase (soar) by 70 percent before 2050. The answers to these questions grow more critical by the day. But working together to develop a firm understanding of these answers could open the door for humanity’s newest technologies to solve some of its oldest developmental problems.
FICA abbreviation means:
F: Meaning of F in the acronym FICA means: F is indistinguishable numerically to the number 6 and stands for affection. The individual with the underlying F is a pleasant, humane and nice identity. In the event that F is the main consonant in a name, it conveys the vibration of a nurturer. Contrarily, F can be individuals self miserable. The letter F resembles the letter E, yet without the base rung. Indeed, even without this rung, F indicates striking steadiness on its single leg. It implies surrender, love, whine, guarded, quiet. F remains for straights and a case of straightforwardness, responsibility and amicability.
I: Meaning of I in the acronym FICA means: I is the third vowel of the letters in order and the numeric Comparable to the number 9. It makes peace and is touchy, sympathetic and human. On the pessimistic side, the general population with this underlying letter I can be oppressive and grouchy. I is a novel letter that blossoms with it. It is benevolent, concerned, agreeable, receptive. It indicates little resistance to the outside, so capable, caution, independent, adoring, narrow minded, mutinous and learned.
C: Meaning of C in the acronym FICA means: C is indistinguishable numerically to the number 3 and speaks to imaginative vitality. Individuals with the underlying letter C are extremely gifted and coexist well with others and are exceptionally social. Contrarily, C individuals can be merciless and coldblooded and now and then need compassion. C is a letter that is opened toward one side. It exemplies transparency, an inviting demeanor and a want to share. That is, sound conduct, trust in the outside world, positive reasoning, striking, scholarstic abilities showed by a transparency, enthusiastic and agreeable and triumphant. C bends from left aaway circulatory to show anxiety in obscure an area, tense and on edge conduct when stood up to with the obscure.
A: Meaning of A in the acronym FICA means: The letter An is a standout amongst the most effective letters of the letter set and names that begin with that letter are, the "practitioners" of the world They resemble "performing artists" throughout everyday life and can put on the persona they need for you. On the off chance that they are not, at that point they will perceive as though they are If An is the primary vowel in a name, the individual has a tendency to be intense and brave. Names starting with the letter An are pioneers, torchbearers, specialists, educators, and individuals who indicate others the way. They are pioneers, inspirations and hopeful visionaries who know about their own particular natural forces. An is indistinguishable numerically to the number 1 and symbolizes the trait of the trust. On the contrary side, a man with the underlying A might be feedback of the endeavors of different organizations. The letter A has two poles associated at a pointed edge and a crossbar holding them together. From an open end to a pointed edge implies that all energies are prepared to accomplish a point that is the most one of a kind imperative objective. The crossbar indicates alert. A mistake is maintained a strategic distance from by hanging all the required assets together. One likewise resembles a pyramid with the best as the highest point of the pyramid. Pyramids are notorious. A symbolizes in this way unmistakable quality and a want that is perceived for those accomplishments. The crossbar likewise gives a rung in step. To get up, you should initial step on the rung. It likewise implies inventiveness, a solid self control, and a withstanding capacity. The upper lodging configuration comprises of the two sideways sides of a triangle, and is crossed in the center by an even pillar. It indicates endeavoring to be the strength effective, inspirational mentality, a hopeful face and self-centeredness.
Acronyms, abbreviations and meanings similar to FICA
FMTE means: Federación Mecanográfica y Taquigráfica Española
FICASS means: : FICA/S S
FICA means: Fur Institute of Canada
FGL means: Federación Gráfica Latinoamericana
FICA means: Faith in Christ Always
LFDM means: La Fica De Mammeta
PDF means: Payroll Deductions FICA
RCP means: Red Científica Peruana
FICA means: Funds I Cant Apprehend
FICA means: Friends In Congress Always
PSP means: Profit Sharing Plan
AFBC means: Atmospheric Fluidized Bed Combustion
ETFSI means: Extended Thomas-Fermi Strutinski Integral
SOPHIA means: System For Organic Reaction Prediction By Heuristic Approach
ANTM means: America's Next Top Model
Search popularirity score of the abbreviation FICA. The country score of the acronym FICA. Daily searches of the acronym FICA? Keyword competition of FICA Google search trends of FICA, Google search history of the acronym FICA, search graph of FICA, keyword cost of FICA
Tags: Acronym Meaning of FICA. meaning of FICA. Find the acronym meaning of FICA? FICA acronym means, FICA stands for.
Copyrights © 2016 Voticle. All Rights Reserved.