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VISION
We’re Changing the Way the World Thinks About Grow Lighting
In 1957, renowned plant physiologist and biochemist, Dr. Robert Emerson, published his remarkable discovery that the rate of photosynthesis in plants can be enhanced through applying deep red and far-red light spectrums simultaneously. This is known today in horticulture as the Emerson Enhancement Effect. His research along with many others show that man can harness the ability of the sun to influence plant growth through technology.
FULL SPECTRUM LED
Our Product Provides the Complete Spectral Range of the Sun at Your Fingertips
DESIGN AND BUILD
Combining direct input from professional growers and over 30 years of light manufacturing expertise, every detail of our products are thought through with purpose. From sourcing the best IP rated LED chips to our daisy-chain power connection, we create products that are practical and effective to growers across the board whether they are seasoned or just getting started.
EMPHASIS ON ENERGY EFFICIENCY
Not all chips need to be on 100% brightness at all times. Our solution allow growers to apply specified intensity of each light spectrum so that we are giving the plants what they need at each stage of growth. This highly customizable approach result in substantial energy cost savings while enhancing yield.
APP DIRECTED LIGHT RECIPES
From seeding to flowering, users are able to preset the spectrum, duration, and intensity for each stage of plant growth. This means growers will only need one energy device for all plants. Growers also have the ability to upload light recipes they develop and download light recipes from other growers worldwide.
GROW SMARTER
EmersonGrow SunBox - a brain for LED grow lights.
Turn any digital-ready LED grow lighting system into a Smart energy device with the EmersonGrow SunBox. The SunBox is a portable device that houses Light Recipes and is equipped with data transfer ports to collect sensor data as well as adjust and control lights with precision.
INDUSTRY
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CENTENNIAL COLLEGE
CULTIVATD
VENTURELAB
CANADIAN FINANCIAL
POWERTRAKGROW
MARKHAM
HIGARDEN
SENECA
ETOBIGROW
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Contact Us
Address
6 Shields Court, Unit #4
Markham, ON
L3R 4S1 Canada
Contact
Tel: +1 (905) 766 1119
Business Hours
Mon - Fri
9:00 am – 5:00 pm
Q&A Section
Q: What is vertical farming?
A: Vertical farming is a method of cultivating plants in vertically stacked layers or structures, often in controlled indoor environments. It allows for efficient use of space, optimized resource utilization, and year-round crop production.
Q: Are indoor gardens involved?
A: An indoor garden is closely related, although not directly identical to vertical farming, in a way that the same artificial lighting and environment control techniques are involved. Using indoor garden lights, or LED grow lights.
Q: How do LED grow lights benefit indoor farming?
A: LED grow lights provide specific light spectra that promote plant growth and development. They are energy-efficient, emit less heat, and can be customized to suit different plant species and growth stages. LED grow lights also have a longer lifespan, reducing maintenance and replacement costs.
Q: What are the advantages of digital indoor farming?
A: Digital indoor farming involves the integration of technology and automation in indoor farming systems. It offers precise control over environmental factors such as temperature, humidity, and nutrient delivery, leading to optimized crop growth, increased yields, and reduced resource consumption.
Q: What are some popular plants for vertical farming?
A: Various plants can be grown using vertical farming methods. Some popular choices include leafy greens like lettuce, spinach, and kale, herbs like basil, mint, and parsley, and vine crops like tomatoes and cucumbers. These plants thrive in controlled indoor environments and can be cultivated efficiently in vertical farming systems.
Q: How can vertical farming contribute to sustainable growing?
A: Vertical farming has several sustainability benefits. It reduces the need for large land areas, conserves water by using recirculating systems, minimizes the use of pesticides and fertilizers, and decreases transportation distances for fresh produce. Additionally, vertical farming can support local food production, reduce greenhouse gas emissions, and provide fresh, nutritious food year-round.
Q: What is the Emerson Effect in plant growth?
A: The Emerson Effect, named after the American physicist Robert Emerson, refers to the phenomenon where the combined use of both red and far-red light, such as those provided by LED grow lights, enhances the photosynthetic efficiency in plants. This effect occurs when plants are exposed to both wavelengths simultaneously, resulting in increased photosynthesis and overall growth.
Q: How does Ontario contribute to agriculture in Canada?
A: Ontario, Canada plays a significant role in the country's agriculture sector. It is one of the leading provinces in terms of agricultural production, with Toronto being a major consumer, contributing to the nation's food supply and economy. Ontario is known for its diverse agricultural landscape, producing a wide range of crops such as corn, soybeans, wheat, fruits, and vegetables. The province also houses agricultural research institutions and supports innovative farming practices to ensure sustainable and efficient agricultural development.
Q: How is agriculture in Canada different from other countries?
A: Agriculture in Canada is unique in various aspects. The country has a vast land area suitable for agricultural activities, allowing for diverse crop production. Canada also implements stringent quality and safety standards in its agricultural practices, ensuring high-quality and safe food production. Additionally, the Canadian agriculture industry emphasizes sustainability and environmental stewardship, promoting responsible land and resource management for long-term productivity and preservation of natural ecosystems.
Q: How does the environment in Ontario, Canada impact agriculture?
The environment in Ontario plays a crucial role in agriculture. The province benefits from a moderate climate, suitable for a wide range of crops. The fertile soils and adequate rainfall support agricultural productivity. However, climate change and extreme weather events pose challenges to Ontario's agriculture, requiring adaptation strategies. Efforts could be made to implement sustainable farming practices like digital farming, improve water management, and mitigate the environmental impact of agriculture to ensure long-term food security and environmental conservation.
Q: What's with Indoor Garden Lights?
Indoor gardening, under the right indoor garden light, provides a meticulously controlled environment for plants, ensuring they receive optimal growth conditions all year round. This method boasts several compelling advantages:
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Year-round cultivation: Bid adieu to waiting for the perfect season. With indoor gardening, every season is planting season.
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Space efficiency: An ideal solution for those with limited outdoor spaces, such as apartments or condos.
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Protection from pests: With indoor gardening, there's a diminished need for pesticides, ensuring your plants remain chemical-free and healthy.
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Controlled Environment: Indoor gardens allow you to regulate temperature, humidity, and light, ensuring your plants get the best care possible.
Q: Can I legally grow cannabis at home now?
Depending on where you live, states like New York State and California have moved with their new regulations permitting people fitting specific requirements to grow under circumstances.
Q: Are LED Grow lights used for growing Cannabis at home?
Yes, LED Grow lights are commonly used for growing Cannabis at home. They provide the necessary light spectrum for optimal plant growth and can be tailored to specific stages of the plant's life cycle, promoting healthier and higher-yielding plants.
Q: How do LED Grow lights benefit home cannabis cultivation?
LED Grow lights offer several advantages for home cannabis cultivation. They consume less energy, produce less heat, and can be adjusted to emit specific wavelengths of light tailored to the plant's needs. Additionally, they have a longer lifespan compared to traditional lighting options, making them a cost-effective and efficient choice for indoor growing.