× This item is no longer available for purchase.

Elephant Ear Fuel Fertilizer - Water-Soluble 20-10-20 - 1 LB bag Refresh


Listing Image
Price $24.99 Per Item ( )
Quantity 999 Available / 0 Sold

Seller Information

Located in: Jupiter, FL
View Seller's Other Listings
Shipping Options

Other $0.00

Free Shipping

Payment Options

Seller Accepts PayPal

Seller Accepts Credit Cards

Payment Instructions

Please click the 'Buy it Now' or 'Bid' button once. Multiple clicks may result in multiple purchases. Pay directly from the listing or invoice. We ship on Tue, Wed, and Thu. Thank you for purchasing! :)


Elephant Ear Fuel Fertilizer

This is a 1 lb bag of Elephant Ear Fuel water-soluble 20-10-20 fertilizer.  Elephant Ear Fuel contains a specific formulation of nutrients to feed your Elephant Ear plants and keep them looking bold and beautiful  Each purchase of Elephant Ear Fuel ships FREE!

Since moving to a sub-tropical location we've become particularly fond of Elephant Ear.  They just work well in the landscape and always provide the tropical punch we're looking for.  Thanks to the Palm Beach Chapter of the Rare Fruit Council we learned there are two types of Elephant Ear, alocasias and colocasias. Colocasias display their heart-shaped leaves with the tip pointing downward. Colocasias prefer full sun and consistent moisture.  Alocasias display the tip of their leaves upward and prefer a bit of shade and more well-drained soil.  We've also discovered that both types do very well in a container.  They're great to move around the landscape or keep as a house plant.

In our landscape alocasia can be a little finicky but we love them the most.  Varieties like Portei and Sarian remind us of fig leaves so they're a no-brainer.  The landscape is still new and forever changing so there are not too many shaded areas.  We have to be a little choosy.  Colocasia can be planted just about anywhere.  Taro tops the list for food value, of course.  But, we've discovered a few amazing striped and black varieties and one with massive, tropical-looking leaves, as well.  We've been dying to add a few more and the Rare Fruit Council plant sale is always around the corner.  


What are water–soluble fertilizers?

Water–soluble fertilizers are powdered. Small amounts are measured and poured into room temperature water or slightly warm water. These fertilizers can be mixed right into a watering can or a bottle and used immediately or stored for a few days before use.

What do fertilizer numbers mean?

Different plants have different nutrient requirements, but all plants need 18 elements for optimum growth and health.  These elements consist of macronutrients, intermediate nutrients, and micronutrients.  Fertilizer numbers represent 3 of the major macronutrients that plants require.  These numbers are typically displayed in a format like N-P-K, where each number corresponds to a specific amount of nutrient contained in the fertilizer.


N-P-K or nitrogen (N), phosphorus (P), and potassium (K) are known as the primary macronutrients.  The numbers on any container of fertilizer will always be listed in that order and tell you the proportion of each nutrient in the product.  For example, a bag of fertilizer labeled as "10-20-10" contains 10% nitrogen (N), 20% phosphorus (P), and 10% potassium (K) by weight.  This formula is 40% fertilizer by weight.

  1. Nitrogen (N) - Nitrogen is crucial for promoting leafy, green growth in plants, stems, and overall plant vigor.
  2. Phosphorus (P) - Phosphorus is important for good root development, flower, and fruit production. 
  3. Potassium (K) - Potassium supports various aspects of plant health, such as disease resistance, drought tolerance, and overall stress resistance. Potassium also plays a role in fruit and seed development.

You should always choose a fertilizer with an N-P-K ratio that suits the specific needs of your plants.

Intermediate Nutrients

Intermediate nutrients, also known as secondary nutrients, play important roles in plant growth and development and are often found in sufficient quantities in most soils and water.  Plants require intermediate nutrients in smaller quantities than primary macronutrients.  In some cases, supplemental fertilization may be necessary to address intermediate nutrient deficiencies.  Each intermediate nutrient can be found separately or added to fertilizer products.  Intermediate nutrients added to fertilizer products are not represented by the three numbers or N-P-K.  Intermediate nutrients added to any fertilizer will be listed on the label in the specific proportion they're added.  The intermediate nutrients are:

  1. Calcium (Ca) - Calcium is essential for cell wall structure and stability. Calcium also plays a role in nutrient uptake, enzyme activation, and neutralizing soil acidity. Calcium deficiency can lead to issues like blossom end rot in tomatoes.
  2. Magnesium (Mg) - Magnesium is vital for photosynthesis. Magnesium is also involved in the activation of enzymes and energy transfer within the plant.  Magnesium deficiency can lead to yellowing between the veins of older leaves.
  3. Sulfur (S) - Sulfur is a component of amino acids, proteins, and some vitamins. Sulfur plays a role in the formation of chlorophyll and is directly involved in several metabolic processes. Sulfur deficiency can result in yellowing of new leaves.


Plant micronutrients, also known as trace elements, are essential nutrients required by plants in smaller quantities than intermediate nutrients.  Typically, micronutrients are measured in parts per million (ppm) or milligrams per kilogram of soil.  Despite their small quantity, these micronutrients play critical roles in various biochemical and physiological processes in plants.  The absence or deficiency of micronutrients can lead to various growth abnormalities, reduced yields, and increased susceptibility to diseases and environmental stress.  The most important plant micronutrients are:

  1. Iron (Fe) - Iron is crucial for the synthesis of chlorophyll, which is essential for photosynthesis. Iron deficiency in plants leads to chlorosis, resulting in yellow leaves with green veins.
  2. Manganese (Mn) - Manganese is necessary for photosynthesis, respiration, and nitrogen metabolism. Deficiencies can cause interveinal chlorosis and poor seed formation.
  3. Zinc (Zn) - Zinc is involved in enzyme activation, particularly in the formation of growth-regulating hormones and the synthesis of proteins. Zinc deficiency can result in stunted growth, leaf deformities, and poor fruit or seed development.
  4. Copper (Cu) - Copper plays a role in photosynthesis, respiration, and the formation of lignin. Copper deficiency may lead to wilting, poor growth, and reduced seed or fruit set.
  5. Boron (B) - Boron is important for cell wall formation, carbohydrate metabolism, and pollen tube growth. Boron deficiency can result in brittle or cracked stems and distorted growth.
  6. Molybdenum (Mo) - Molybdenum is required for nitrogen fixation in legumes and the activation of specific enzymes. Molybdenum deficiency can lead to nitrogen-related issues and reduced growth.
  7. Chlorine (Cl) - Chlorine, primarily taken up as chloride ions, is involved in photosynthesis and osmoregulation in plants. Chlorine deficiency is relatively rare and can cause reduced growth and wilting.

It's important for gardeners to be aware of the specific micronutrient needs of the plants they are growing and, if necessary, provide micronutrient supplements through fertilizers or soil amendments.  


Formulas with small numbers, such as 6-6-6, are referred to as “low-analysis” fertilizers.  Low analysis fertilizers are often used when a plant's nutrient requirements are not very high, or when you want to provide balanced nutrition without the risk of over-fertilization.  Low-analysis fertilizers are also helpful when you want to apply a fertilizer with a specific nutrient ratio for a particular stage of plant growth or when addressing a specific nutrient deficiency.  Low-analysis fertilizers are suitable for a wide range of applications, including general garden use, lawns, and landscaping.  

Fertilizers with larger numbers, such as 20-20-20, are “high-analysis.”  In general, any fertilizer with N-P-K numbers significantly higher than balanced ratios (e.g., 10-10-10) can be considered a high-analysis fertilizer.  High-analysis fertilizers are often used when plants have increased nutrient demands, such as during periods of rapid growth, fruiting, or flowering. They are especially useful for crops that require a substantial supply of nutrients, like vegetables, fruits, and certain ornamental plants.

What is the difference?  A 3-pound bag of 20-20-20 is equal to a 10-pound bag of 6-6-6 if other things are equal.  Ex: 3 pounds of 20-20-20 [3x(20+20+20)=180] is equal to 10 pounds of 6-6-6 [10x(6+6+6)=180].  Factors that increase quality and price include micronutrient inclusion, high analysis, and slow release.


Wellspring Gardens has an agreement with NYCfigs to distribute Banana Fuel Fertilizer on FigBid.com. Your order will ship directly from Wellspring Gardens' nursery in Central Florida.


  • Item # 48173960
  • 305 Page Views
Return Policy
NYCfigs has a rock solid return policy. In the rare instance that you are not satisfied, please let us know immediately and we'll make it right with a refund or exchange. Please understand that NYCfigs will do our best to correct shipping delays and lost packages but those issues are out of our control.