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Product benefits

  • Balanced Bloom Nutrition
  • Bloom Support
  • Quality Yield Support
  • Better Nutrient Uptake
  • Wider pH Flexibility
  • Chelation Support
  • Multi-System Use
  • Clean Sediment-Free Formula

This product may offer additional benefits beyond those listed.

Frequently purchased together

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Athena Nutrients 混合系列开花肥 A - 5 加仑

Flowering Stage Indoor Outdoor Regular Watering Watering Systems Hydroponics Coco Coir Safe Soil Soilless
$236.25
$236.25
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1 加仑 5 加仑
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Manufacturer Recommended Products

These manufacturer-recommended products are designed to be used with this product for proper performance and best results. In multi-component systems, all recommended components should be used together as directed to help ensure effective use.

Product benefits

  • Balanced Bloom Nutrition
  • Bloom Support
  • Quality Yield Support
  • Better Nutrient Uptake
  • Wider pH Flexibility
  • Chelation Support
  • Multi-System Use
  • Clean Sediment-Free Formula

This product may offer additional benefits beyond those listed.

Description

Athena Nutrients Bloom A 和 Bloom B 是一款双组分开花营养液,专为开花期的花卉和果实类植物设计。Bloom A 和 Bloom B 采用纯净的双组分基础营养配方,旨在以简洁易懂的方式提供全面的开花营养。

这款混合型液体配方专注于提供植物所需的矿物质营养,支持花蕾和花朵在生长旺盛期的发育。Athena 采用大量元素和螯合微量元素配制 Bloom,以增强植物在更宽 pH 值范围内的养分吸收能力,确保关键元素在环境变化时也能保持有效性。最终打造出一款注重稳定性和可靠性的开花期专用肥料,而非追求配方复杂。

Bloom A 和 Bloom B 采用无沉淀配方,这在对清洁度要求极高的水培环境中是一项实用优势。该配方专为水培设计,因此非常适合那些希望在开花期使用专用水培营养液的种植者。如果您偏爱一款成分简单、清洁且能促进花朵发育的双组分开花营养液,那么这款组合正是您的理想之选。

以下是消费者关注的简要信息。Bloom A 和 Bloom B 各自含有不同的氮磷钾比例:Bloom A 为 4-0-5,Bloom B 为 0.7-6-5。其成分包括矿物质营养盐和螯合微量元素,例如硝酸钙铵、硝酸钾和磷酸二氢钾、磷酸一铵等磷酸盐来源,以及铁螯合物(EDDHA/EDTA)、锰螯合物(EDTA)、锌螯合物(EDTA)和铜螯合物(EDTA)。

对于想要清洁、无沉淀物的液体肥料和专为开花期设计的双组分开花营养液的水培种植者来说,这是一个很好的选择,其中含有大量营养素和螯合微量营养素,可支持花蕾和花朵的发育。

How To Use

How to Use Athena Nutrients 混合系列开花肥 A - 5 加仑

Step-by-step mixing and feeding instructions for Athena Nutrients 混合系列开花肥 A - 5 加仑.

Mixing & preparation

Fill your reservoir or watering container with clean, room-temperature water first. Shake the bottle of Athena Nutrients 混合系列开花肥 A - 5 加仑 well before every use. Using the feeding schedule below, measure the recommended dose and add it directly to the water while stirring. Allow the solution to mix fully before adding any other fertilizers, additives, or supplements.

Always add nutrients to water — not the other way around. Mix thoroughly between products to ensure an even, stable nutrient solution.

Week-by-week feeding schedule

Vegetative stage — Grow A

  • Week 1: mix 2.9 ml per litre of water or nutrient solution.
  • Week 2: mix 2.9 ml per litre of water or nutrient solution.
  • Week 3: mix 2.9 ml per litre of water or nutrient solution.
  • Week 4: mix 2.9 ml per litre of water or nutrient solution.

Flowering stage — Grow A

  • Week 1: do not use this product during this week of flowering.
  • Week 2: do not use this product during this week of flowering.
  • Week 3: do not use this product during this week of flowering.
  • Week 4: do not use this product during this week of flowering.
  • Week 5: do not use this product during this week of flowering.
  • Week 6: do not use this product during this week of flowering.
  • Week 7: do not use this product during this week of flowering.
  • Week 8: do not use this product during this week of flowering.
  • Week 9: do not use this product during this week of flowering.

Vegetative stage — Grow B

  • Week 1: mix 2.9 ml per litre of water or nutrient solution.
  • Week 2: mix 2.9 ml per litre of water or nutrient solution.
  • Week 3: mix 2.9 ml per litre of water or nutrient solution.
  • Week 4: mix 2.9 ml per litre of water or nutrient solution.

Flowering stage — Grow B

  • Week 1: do not use this product during this week of flowering.
  • Week 2: do not use this product during this week of flowering.
  • Week 3: do not use this product during this week of flowering.
  • Week 4: do not use this product during this week of flowering.
  • Week 5: do not use this product during this week of flowering.
  • Week 6: do not use this product during this week of flowering.
  • Week 7: do not use this product during this week of flowering.
  • Week 8: do not use this product during this week of flowering.
  • Week 9: do not use this product during this week of flowering.

Vegetative stage — Bloom A

  • Week 1: do not use this product during this week of vegetative growth.
  • Week 2: do not use this product during this week of vegetative growth.
  • Week 3: do not use this product during this week of vegetative growth.
  • Week 4: do not use this product during this week of vegetative growth.

Flowering stage — Bloom A

  • Week 1: mix 3.2 ml per litre of water or nutrient solution.
  • Week 2: mix 3.2 ml per litre of water or nutrient solution.
  • Week 3: mix 3.2 ml per litre of water or nutrient solution.
  • Week 4: mix 3.2 ml per litre of water or nutrient solution.
  • Week 5: mix 2.6 ml per litre of water or nutrient solution.
  • Week 6: mix 2.4 ml per litre of water or nutrient solution.
  • Week 7: mix 1.3 ml per litre of water or nutrient solution.
  • Week 8: mix 1.1 ml per litre of water or nutrient solution.
  • Week 9: mix 1.1 ml per litre of water or nutrient solution.

Vegetative stage — Bloom B

  • Week 1: do not use this product during this week of vegetative growth.
  • Week 2: do not use this product during this week of vegetative growth.
  • Week 3: do not use this product during this week of vegetative growth.
  • Week 4: do not use this product during this week of vegetative growth.

Flowering stage — Bloom B

  • Week 1: mix 3.2 ml per litre of water or nutrient solution.
  • Week 2: mix 3.2 ml per litre of water or nutrient solution.
  • Week 3: mix 3.2 ml per litre of water or nutrient solution.
  • Week 4: mix 3.2 ml per litre of water or nutrient solution.
  • Week 5: mix 2.6 ml per litre of water or nutrient solution.
  • Week 6: mix 2.4 ml per litre of water or nutrient solution.
  • Week 7: mix 1.3 ml per litre of water or nutrient solution.
  • Week 8: mix 1.1 ml per litre of water or nutrient solution.
  • Week 9: mix 1.1 ml per litre of water or nutrient solution.

Vegetative stage — PK

  • Week 1: do not use this product during this week of vegetative growth.
  • Week 2: do not use this product during this week of vegetative growth.
  • Week 3: do not use this product during this week of vegetative growth.
  • Week 4: do not use this product during this week of vegetative growth.

Flowering stage — PK

  • Week 1: do not use this product during this week of flowering.
  • Week 2: do not use this product during this week of flowering.
  • Week 3: mix 1.1 ml per litre of water or nutrient solution.
  • Week 4: mix 1.6 ml per litre of water or nutrient solution.
  • Week 5: mix 2.4 ml per litre of water or nutrient solution.
  • Week 6: mix 2.6 ml per litre of water or nutrient solution.
  • Week 7: mix 3.2 ml per litre of water or nutrient solution.
  • Week 8: mix 2.6 ml per litre of water or nutrient solution.
  • Week 9: mix 2.6 ml per litre of water or nutrient solution.

Vegetative stage — CaMg

  • Week 1: mix 0.8 ml per litre of water or nutrient solution.
  • Week 2: mix 0.8 ml per litre of water or nutrient solution.
  • Week 3: mix 0.8 ml per litre of water or nutrient solution.
  • Week 4: mix 0.8 ml per litre of water or nutrient solution.

Flowering stage — CaMg

  • Week 1: mix 0.8 ml per litre of water or nutrient solution.
  • Week 2: mix 0.8 ml per litre of water or nutrient solution.
  • Week 3: mix 0.8 ml per litre of water or nutrient solution.
  • Week 4: mix 0.8 ml per litre of water or nutrient solution.
  • Week 5: mix 0.8 ml per litre of water or nutrient solution.
  • Week 6: mix 0.8 ml per litre of water or nutrient solution.
  • Week 7: mix 0.8 ml per litre of water or nutrient solution.
  • Week 8: do not use this product during this week of flowering.
  • Week 9: do not use this product during this week of flowering.

Vegetative stage — Cleanse

  • Week 1: mix 0.5 ml per litre of water or nutrient solution.
  • Week 2: mix 0.5 ml per litre of water or nutrient solution.
  • Week 3: mix 0.5 ml per litre of water or nutrient solution.
  • Week 4: mix 0.5 ml per litre of water or nutrient solution.

Flowering stage — Cleanse

  • Week 1: mix 0.5 ml per litre of water or nutrient solution.
  • Week 2: mix 0.5 ml per litre of water or nutrient solution.
  • Week 3: mix 0.5 ml per litre of water or nutrient solution.
  • Week 4: mix 0.5 ml per litre of water or nutrient solution.
  • Week 5: mix 0.5 ml per litre of water or nutrient solution.
  • Week 6: mix 0.5 ml per litre of water or nutrient solution.
  • Week 7: mix 0.5 ml per litre of water or nutrient solution.
  • Week 8: mix 0.5 ml per litre of water or nutrient solution.
  • Week 9: mix 0.5 ml per litre of water or nutrient solution.

Tips for best results

  • Maintain pH and EC/ppm within the range recommended for your growing medium and crop.
  • Use fresh nutrient solution whenever possible and avoid leaving mixed solution stagnant for long periods.
  • Store nutrients in a cool, dark place away from direct sunlight and extreme temperatures.
  • Keep bottles tightly sealed when not in use to reduce air exposure and preserve product quality.
  • Use clean measuring tools and regularly rinse or clean your reservoir, lines, and irrigation equipment.

Common mistakes to avoid

  • Do not mix different nutrients or additives together in concentrated form before adding them to water.
  • Do not exceed the recommended dosage unless you are following a tested, crop-specific feeding plan.
  • Do not skip pH or EC/ppm checks when growing in hydroponic or soilless systems.
  • Do not allow the nutrient solution to freeze or overheat, as this can damage the formulation.
  • Do not ignore the directions on the product label for your specific crop, growth stage, and system type.

Warnings & Safety

Warning – Important Safety Information

This product may cause mild skin irritation and eye irritation. Avoid unnecessary contact with skin, eyes, and clothing. Use only as directed.

General safety precautions

Read and follow all instructions on the product label and any accompanying documentation before use. Keep out of reach of children and pets. Do not ingest. Avoid breathing vapours, mist, or dust that may be generated during handling or use.

Wear appropriate personal protective equipment (PPE), such as protective gloves, long sleeves, long pants and closed-toe footwear. When there is a risk of splashing or airborne particles, use safety glasses or other suitable eye and face protection.

First aid – skin contact

IF ON SKIN OR HAIR: Remove contaminated clothing immediately. Rinse skin with clean water for several minutes, then wash with mild soap and water. If irritation or redness develops and persists, seek medical attention. Wash contaminated clothing before reuse.

First aid – eye contact

IF IN EYES: Rinse cautiously with clean water for several minutes, keeping eyelids open. Remove contact lenses if present and easy to do. Continue rinsing. If irritation persists, obtain medical advice.

First aid – ingestion and inhalation

IF SWALLOWED: Rinse mouth thoroughly with water. Do not induce vomiting unless instructed by a medical professional. Seek medical attention if you feel unwell.

IF INHALED: Move the person to fresh air and keep them comfortable for breathing. If coughing, breathing difficulty, dizziness or other symptoms occur, seek medical assistance.

Storage and handling

Store this product in its original closed container, in a cool, dry and well-ventilated area. Protect from extreme temperatures and direct sunlight. Keep container tightly sealed when not in use.

Avoid release to drains, natural waterways or outdoor soil. Dispose of unused product and empty containers in accordance with local regulations and the directions on the label.

Important: If medical advice is needed, keep the product label or container available. Always follow the specific instructions and safety recommendations provided by the manufacturer. This safety notice is intended as general guidance and does not replace official label directions or documentation.

Guaranteed Minimum Analysis
Total Nitrogen (N) 4.0%
Nitrate Nitrogen (N) 3.8%
Ammoniacal Nitrogen (N) 0.2%
Soluble Potash (K2O) 5.0%
Calcium (Ca) 3.2%
Water Soluble Magnesium (Mg) 0.17%
Boron (B) 0.01%
Chelated Iron (Fe) 0.06%
Chelated Manganese (Mn) 0.013%
Molybdenum (Mo) 0.0007%
Chelated Zinc (Zn) 0.0045%

Derived From
Calcium Ammonium Nitrate
Potassium Nitrate
Iron EDTA
Iron EDDHA
Zinc EDTA
Manganese EDTA
Sodium Molybdate
Sodium Borate
Magnesium Nitrate

Frequently Asked Questions
What Is ammoniacal nitrogen (N) and why do plants need It?

Ammoniacal Nitrogen (N) is a plant-available form of ammonium (NH₄⁺) that provides a steady, gentle source of nitrogen for healthy green growth. Unlike fast-release nitrogen types, ammoniacal nitrogen feeds plants slowly, helps stabilize root-zone pH, and works well in cooler temperatures. It is commonly used during early vegetative growth because it supports strong leaf development without burning young roots. If plants show pale leaves, slow growth, or weak stems, they may need more available ammoniacal nitrogen.

Read the full guide

Why is boron (B) essential for strong plant development, and what makes it different from other micronutrients?

Boron is essential because it stabilizes cell walls, supports root and shoot growth, and regulates sugar movement throughout the plant. What makes boron unique is its limited mobility and extremely narrow range between deficiency and excess, which causes new growth to show symptoms rapidly when levels fall out of balance.

Read the full guide

What makes calcium ammonium nitrate unique for plant growth compared to other nitrogen sources?

Calcium ammonium nitrate is unique because it delivers quick-acting nitrogen while also supplying calcium that supports strong new tissue, so you can drive green growth without sacrificing structure. It’s important because it can correct slow, pale growth and reduce calcium-related weakness at the same time when the plant is in a rapid growth phase.

Read the full guide

Why is calcium important for plant growth?

Calcium is important because it builds and stabilizes plant cells as they form, acting as the structural support that keeps new growth strong and functional. Unlike other nutrients that drive color or speed of growth, calcium’s role is unique because it controls cell wall strength and membrane stability, making it essential for healthy roots, shoots, and long-term plant resilience rather than quick visual results.

Read the full guide

Why is chelated iron important for plants, and what makes it different from other iron sources?

Chelated iron is important because it keeps iron usable for plants even when growing conditions would normally lock iron out, helping prevent the classic yellow-new-leaf symptom caused by low chlorophyll production. It is unique from other iron sources because the chelation protects iron from becoming insoluble, making it a more reliable way to correct iron-related chlorosis when regular iron can fail.

Read the full guide

Why is chelated manganese (Mn) important for plant growth?

Chelated manganese is important because it keeps manganese available for photosynthesis and enzyme activity even when pH or water chemistry would normally lock it out, and it’s unique from similar micronutrients because it strongly supports the plant’s energy-processing systems that drive healthy, resilient new growth.

Read the full guide

Why is chelated zinc (Zn) important for plants?

Chelated zinc is important because it keeps zinc available for uptake even when pH or root-zone conditions would normally lock zinc out, helping plants form normal-sized, healthy new growth—something that makes zinc uniquely different from many other nutrients that mainly affect older leaves or simple leaf color changes.

Read the full guide

Why is molybdenum (Mo) important for plant growth?

Molybdenum is important because it helps plants convert nitrogen into usable building blocks for chlorophyll and growth, and it’s unique from many nutrients because it mainly supports enzyme-driven “nutrient use” rather than directly building plant tissue.

Read the full guide

What does nitrate nitrogen (N) do for plants?

Nitrate Nitrogen provides a stable, easy-to-absorb form of nitrogen that supports steady growth, strong foliage, and reliable plant development without sudden nutrient swings.

Read the full guide

Why is soluble potash (K2O) important for plants?

Soluble potash (K2O) is important because it helps plants control water use, move sugars to new growth and fruit, and build stronger, higher-quality structure under stress. It’s unique from many other nutrients because it acts more like a regulator and transport helper than a direct “building material,” so the biggest benefits show up as steadier growth, stronger stems, and better finishing instead of just bigger leaves.

Read the full guide

Why is total nitrogen (N) important for plant growth, and what makes it different from other nutrients?

Total Nitrogen is important because it directly drives leafy growth, chlorophyll production, and overall growth speed, which sets the pace for the entire plant. It’s unique because the “total” number can include different nitrogen forms that behave differently in the root zone, meaning the same total amount can produce very different results depending on the nitrogen type and plant stage.

Read the full guide

Why is water soluble magnesium important for plant growth?

Water soluble magnesium is important because it quickly restores the plant’s ability to make chlorophyll and produce energy, which helps stop interveinal yellowing on older leaves and improves overall nutrient use; it’s unique because it becomes available immediately in water, making it faster and more predictable than slower magnesium sources.

Read the full guide

Why is Iron EDDHA better for plants growing in high-pH soil?

Iron EDDHA is important because it keeps iron usable when alkaline conditions would normally lock iron away, helping new leaves stay green and growth stay strong. It’s unique because it remains stable and plant-available at higher pH where many other iron forms quickly stop working.

Read the full guide

What makes iron EDTA effective for fixing pale new leaves?

Iron EDTA keeps iron dissolved and available long enough for roots to absorb it, which is why it can quickly improve new growth color when iron is tied up in the root zone. It’s unique because the EDTA chelate balances stability and accessibility, making iron more reliably usable in mildly acidic to near-neutral conditions compared to many non-chelated iron forms.

Read the full guide

What does magnesium nitrate do for plants?

Magnesium nitrate supplies fast-available magnesium for chlorophyll and photosynthesis while also adding nitrate nitrogen that can speed up greening and growth. It’s unique because it can correct magnesium-related yellowing quickly but also changes growth momentum, so it’s most valuable when magnesium is truly limiting and the plant can safely use extra nitrate.

Read the full guide

What makes manganese EDTA different from other manganese sources?

Manganese EDTA is unique because the EDTA chelate keeps manganese stable and more available during delivery, helping plants absorb it more reliably when manganese would otherwise lock up. This matters because manganese drives key enzyme functions tied to photosynthesis and healthy new growth, so consistent availability can prevent pale, chlorotic young leaves and stalled vigor.

Read the full guide

Is potassium nitrate better for quick deficiency correction than other potassium sources?

Potassium nitrate is often better for quick correction when the plant needs both potassium and fast nitrate nitrogen, because it dissolves cleanly and is taken up quickly, unlike potassium sources that don’t supply nitrogen. It’s unique because it can restore leaf color and growth momentum while also improving water regulation, but it can backfire if nitrogen is already high or if salt levels are already stressing the roots.

Read the full guide

What does sodium borate do for plants?

Sodium borate mainly supplies boron, a micronutrient plants need in tiny amounts to build healthy new growth and develop flowers and fruit normally, but it’s unique because the safe range is narrow and too much can quickly cause tip damage and leaf burn.

Read the full guide

What does sodium molybdate do for plants?

Sodium molybdate supplies molybdenum, a trace micronutrient that helps plants convert nitrate nitrogen into usable building material, so growth and green color stay steady; it’s unique because it works as a tiny-dose “nitrogen unlocker” rather than a bulk nutrient.

Read the full guide

What makes zinc EDTA better for preventing zinc lockout?

Zinc EDTA is important because it keeps zinc available in the root zone when pH or water chemistry would normally tie zinc up, helping new growth develop normally before deficiency symptoms get worse. It’s unique from other zinc forms because the EDTA chelate shields zinc in solution, making delivery more consistent when conditions are not ideal.

Read the full guide

Safety & Technical Documents

Frequently purchased together

查看完整详细信息
营养饲料表

Vegetative — Week 1

  1. Grow A
  2. Grow B
  3. Bloom A
  4. Bloom B
  5. PK
  6. CaMg
  7. Cleanse

Flowering — Week 1

  1. Grow A
  2. Grow B
  3. Bloom A
  4. Bloom B
  5. PK
  6. CaMg
  7. Cleanse

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