A banana is an edible fruit – botanically a berry produced by several kinds of large herbaceous flowering plants in the genus Musa. In some countries, bananas used for cooking may be called plantains, in contrast to dessert bananas. The fruit is variable in size, color, and firmness, but is usually elongated and curved, with soft flesh rich in starch covered with a rind, which may be green, yellow, red, purple, or brown when ripe. The fruits grow in clusters hanging from the top of the plant. Almost all modern edible parthenocarpic (seedless) bananas come from two wild species – Musa acuminata and Musa balbisiana. Musa species are native to tropical Indo-malaya and Australia, and are likely to have been first domesticated in Papua New Guinea. They are grown in 135 countries, primarily for their fruit, and to a lesser extent to make fiber, banana wine, and banana beer and as ornamental plants. The world’s largest producers of bananas in 2016 were India and China, which together accounted for 28% of total production.
Worldwide, there is no sharp distinction between “bananas” and “plantains”. Especially in the Americas and Europe, “banana” usually refers to soft, sweet, dessert bananas, particularly those of the Cavendish group, which are the main exports from banana-growing countries. By contrast, Musa cultivars with firmer, starchier fruit are called “plantains”. In other regions, such as Southeast Asia, many more kinds of banana are grown and eaten, so the binary distinction is not useful and is not made in local languages.
Ripening
Export bananas are picked green, and ripen in special rooms upon arrival in the destination country. These rooms are air-tight and filled with ethylene gas to induce ripening. The vivid yellow color consumers normally associate with supermarket bananas is, in fact, caused by the artificial ripening process.[64] Flavor and texture are also affected by ripening temperature. Bananas are refrigerated to between 13.5 and 15 °C (56.3 and 59.0 °F) during transport. At lower temperatures, ripening permanently stalls, and the bananas turn gray as cell walls break down. The skin of ripe bananas quickly blackens in the 4 °C (39 °F) environment of a domestic refrigerator, although the fruit inside remains unaffected.
Storage and transport
Bananas must be transported over long distances from the tropics to world markets. To obtain maximum shelf life, harvest comes before the fruit is mature. The fruit requires careful handling, rapid transport to ports, cooling, and refrigerated shipping. The goal is to prevent the bananas from producing their natural ripening agent, ethylene. This technology allows storage and transport for 3–4 weeks at 13 °C (55 °F). On arrival, bananas are held at about 17 °C (63 °F) and treated with a low concentration of ethylene. After a few days, the fruit begins to ripen and is distributed for final sale.
PRODUCTION AND EXPORT
In 2016, world production of bananas and plantains was 148 million tonnes, led by India and China with a combined total (only for bananas) of 28% of global production. Nigeria has all that is required to be amongst the biggest producer of this fruit and with the disposition of the government of the day towards agriculture it will be easily achieved by any serious investor. As reported for 2013, total world exports were 20 million tonnes of bananas. Ecuador and the Philippines were the leading exporters with 5.4 and 3.3 million tonnes, respectively.
PEST AND DISEASES
While in no danger of outright extinction, the most common edible banana cultivar Cavendish (extremely popular in Europe and the Americas) could become unviable for large-scale cultivation in the next 10–20 years. Its predecessor ‘Gros Michel‘, discovered in the 1820s, suffered this fate. Like almost all bananas, Cavendish lacks genetic diversity, which makes it vulnerable to diseases, threatening both commercial cultivation and small-scale subsistence farming. Some commentators remarked that those variants which could replace what much of the world considers a “typical banana” are so different that most people would not consider them the same fruit, and blame the decline of the banana on monogenetic cultivation driven by short-term commercial motives.
Panama disease
Panama disease is caused by a fusarium soil fungus (Race 1), which enters the plants through the roots and travels with water into the trunk and leaves, producing gels and gums that cut off the flow of water and nutrients, causing the plant to wilt, and exposing the rest of the plant to lethal amounts of sunlight.
Tropical race 4
Tropical race 4 (TR4), a reinvigorated strain of Panama disease, was first discovered in 1993. This virulent form of fusarium wilt has wiped out Cavendish in several southeast Asian countries. It has yet to reach the Americas; however, the soil-based fungi can easily be carried on boots, clothing, or tools. This is how TR4 travels and will be its most likely route into Latin America. Cavendish is highly susceptible to TR4, and over time Cavendish will almost certainly be eliminated from commercial production by this disease. The only known defense to TR4 is genetic resistance, which remains undiscovered as of 2018.
Black sigatoka
Black sigatoka is a fungal leaf spot disease first observed in Fiji in 1963 or 1964. Black Sigatoka (also known as black leaf streak) has spread to banana plantations throughout the tropics from infected banana leaves that were used as packing material. It affects all main cultivars of bananas and plantains impeding photosynthesis by blackening parts of the leaves, eventually killing the entire leaf. Starved for energy, fruit production falls by 50% or more, and the bananas that do grow ripen prematurely, making them unsuitable for export. The fungus has shown ever-increasing resistance to treatment, with the current expense for treating 1 hectare (2.5 acres) exceeding $1,000 per year. In addition to the expense, there is the question of how long intensive spraying can be environmentally justified. Several resistant cultivars of banana have been developed, but none has yet received commercial acceptance due to taste and texture issues.
Banana bunchy top virus
Banana bunchy top virus (BBTV) jumps from plant to plant using aphids. It stunts leaves, resulting in a “bunched” appearance. Generally, an infected plant does not produce fruit, although mild strains exist which allow some production. These mild strains are often mistaken for malnourishment, or a disease other than BBTV. There is no cure; however, its effect can be minimized by planting only tissue-cultured plants (in vitro propagation), controlling aphids, and immediately removing and destroying infected plants
Banana bacterial wilt
Banana bacterial wilt (BBW) is a bacterial disease caused by Xanthomonas campestris pv. musacearum. After being originally identified on a close relative of bananas, Ensete ventricosum, in Ethiopia in the 1960s, BBW occurred in Uganda in 2001 affecting all banana cultivars. Since then BBW has been diagnosed in Central and East Africa including the banana growing regions of Rwanda, the Democratic Republic of the Congo, Tanzania, Kenya, Burundi, and Uganda.
Nutrition
Raw bananas (not including the peel) are 75% water, 23% carbohydrates, 1% protein, and contain negligible fat (table). In a 100 gram amount, bananas supply 89 Calories and are a rich source of vitamin B6, providing 31% of the US recommended Daily Value, and contain moderate amounts of vitamin C, manganese and dietary fiber (table).
Potassium
Although bananas are commonly thought to supply exceptional potassium content, their actual potassium content is relatively low per typical food serving at only 8% of the US recommended Daily Value (table). Vegetables with higher potassium content than raw dessert bananas (358 mg per 100 grams) include raw spinach (558 mg per 100 grams), baked potatoes without skin (391 mg per 100 grams), cooked soybeans (539 mg per 100 grams), grilled portabella mushrooms (437 mg per 100 grams) and processed tomato sauces (413–439 mg per 100 grams). Raw plantains contain 499 mg potassium per 100 grams. Dehydrated dessert bananas or banana powder contain 1491 mg potassium per 100 grams.
The major inputs for commercial BANANA farming are; LAND, IMPROVED GRAIN, TRAINING, FERTILIZER, DISEASE AND PEST CONTROL, FINANCE and MARKET.
LAND
BANANA will grow and fruit under poor soil conditions but will be less productive without deep, well-drained soil; forest loam, rocky sand, marl, red laterite, volcanic ash, sandy clay, or even heavy clay. The key element in-soil type for successful banana plant growth is good drainage. This is important to optimize yield. Procuring Land for such commercial farming has to be done by professionals who have the eagle eye to decode the soil texture without much examination. It is also easier to source for land for agriculture through professionals because they have extensive network and can arrange Land for you in short notice and in a cost effective manner. There is little need to purchase land for farming in large scale from the beginning as this will tie down available capital, thus it is advisable to lease and subsequently pay for the land from the proceed of the farm. BUSINESS ADVISORY NETWORK is a guru in this regard and will help you arrange choice farm land at the best rate, all you have to do is to talk to us.
TRAINING
We will guide you on best planting season, spacing, fertilizer type, how to source fertilizer, fertilizer application. Weed control, Crops you may intercrop with BANANA, the effects of intercropping on BANANA yield, Storage and processing.
FINANCE
The central bank of Nigeria has a lot of incentives/ credits for commercial farmers at a reduced interest rate of 9% per annum. Most of these are organized by the central bank of Nigeria although accessed through the commercial bank. BAN will guide you on how to source credit under any of these credits listed below;
Agricultural Credit Guarantee Scheme Fund (ACGSF) The Fund guarantees credit facilities extended to farmers by banks up to 75% of the amount in default net of any security realized. The Fund is managed by the Central Bank of Nigeria, through this guarantee it is easy For commercial banks to loan to farmers not fearing
Agricultural Credit Support Scheme (ACSS) ACSS funds are disbursed to farmers and agro-allied entrepreneurs at a single-digit interest rate of 8.0 percent. At the commencement of the project support, banks will grant loans to qualified applicants at 14.0 per cent interest rate. Applicants who pay back their facilities on schedule are to enjoy a rebate of 6.0 per cent, thus reducing the effective rate of interest to be paid by farmers to 8.0 per cent.
Commercial Agriculture Credit Scheme (CACS) This credit scheme is specifically targeted to finance the country’s agricultural value chain (production, processing, storage and marketing). The maximum interest rate to the borrower under the scheme shall not exceed 9 per cent, inclusive of all charges.
Nigeria Incentive Based Risk Sharing System for Agricultural Lending ( NIRSAL) Risk is the single-most important factor that prevents banks from lending to agriculture. To change banks’ perception that agriculture is a high-risk sector, NIRSAL has a USD300 Million Risk-Sharing Facility that it uses to share their losses on agricultural loans through Credit Risk Guarantees. NIRSAL shares risk with banks ranging from 30% to 75% of face value depending on segment.
This also includes a guarantee fee of 1% per annum on outstanding protected principal and interest. Up to 40% of interest cost rebated to select value chain participants every 90 days if loan remains in good standing (no partial or full default). All crops, livestock and related supportive economic activity across the value chain are supported by this facility.
The news is that government is willing and doing everything to encourage farming in Nigeria because that’s where the country straight lies. Nigeria is endowed with arable land and fresh water resources when viewed as a whole with approximately 61 million hectares of the land cultivable while the total renewable water resources is about 280 km3/year; which include river Niger, river Benue, lake Chad, Osun river, Hadejia River, Bonny river and a host of others. The major soil types in Nigeria, according to FAO soil taxonomist are fluvisols, regosols, gleysols, acrisols, ferrasols, alisols, lixisols, cambisols, luvisols, nitosols, arenosols and vertisols. These soil types vary in their potential for agricultural use according to FAO.
Nigerian soils can be classified into groups made up of four (climatic) zones that are soil associations. The groups are:
- Northern zone of sandy soils
- Interior zone of laterite soils
- Southern belt of forest soils
- Alluvial soils Zones
Northern zone of sandy soils: This area lies in the very northern parts of the country. This area lies in the extreme north with proximity to the fringes of the fast- encroaching Sahara desert. It is characterized by soils formed by deposition of sand by the wind. These soils might have been formed from wind-sorted desert sands that accumulated over long periods of time when the Sahara desert encroached several kilometers south of its present limits. The soils of this zone are very good in the production of groundnut, sorghum, cowpea, and millet.
Interior zone of laterite soils: This zone is made up of a mixture of sand and clay. They are grey to black clay, poorly drained and seasonally flooded forming the “fadama”. The Biu Plateau has rich soil that is productive and offers prospects for the expansion of the areas of cotton production, soybeans, yam and other legumes.
Southern belt of forest soils: Soils in this zone broadly represent those of the humid, tropical forest climate zones of the south where the wet season is long, the harmattan season short and forest cover is dense. Local soil types depend largely on parent rock; where the underlying rocks are granite or clay, the soils is a rich clayey loam. These soils are very good in growing crops like cocoa, oil palm, rubber, Cassava.
Zone of alluvial soils: These soils are found along the flooded plains of rivers, deltas, along the coastal flats. This zone extends from the coastal inland and runs along the valleys of the Niger and the Benue rivers, thus cutting across the vegetational zones. Soils in this zone are characteristic of fresh-water soil of grey to white sand, grey clay and sandy clay with humid topsoil. Another group consists of brownish to black saline mangrove soils, with a mat of rootlets. This soil type is very good for rice etc.
FARM EQUIPMENT
BAN will also help in securing farming equipment. This may be achieved through the federal and state government partnership with the support of any of the credit schemes. Through this farm equipment can be acquired or leased.
MARKET
Demand for BANANA is high both locally and internationally. A farmer may decide to add value and export or sell locally depending on his business plan.
SECURITY
Security of the farm is of utmost importance, thus adequate security must be put in place to eliminate/ reduce pilferage in the farm.