市場調查報告書
商品編碼
1129210
全球園藝照明市場-2022-2029Global Horticulture Lighting Market - 2022-2029 |
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政府大力鼓勵採用 CEA 以及“從農場到餐桌”概念日益重要,推動了園藝照明市場的發展。然而,設置和安裝所需的高成本可能會阻礙市場增長。
“從農民到餐桌”思想的重要性增加
“從農場到餐桌”的食品理念強調當地種植的新鮮食品的味道和營養價值。餐館老闆可能需要更多的工作來建立可靠的供應鏈,但這項投資可能非常值得。根據尼爾森最近的一項民意調查,51% 的消費者希望在外出就餐時支持當地企業。許多從農場到餐桌的餐廳從 50 到 200 英裡以外的地區採購蔬菜和奶製品。
即使在酒店業,最終也可能在各個市場對本地生產的產品產生需求。農場到農場的餐廳需要園藝照明,以確保及時供應農產品。即使需求增加,受控環境農業也可以提供所需質量和數量的食物。未來,隨著對當地生產的食品的需求增加,預計這一因素的影響會越來越大。
擴大對環境管理型農業 (CEA) 的接受度
CEA 是創造一個完全控制植物生長的環境。人工系統提供水、溫度、濕度、通風、光照和二氧化碳來支持植物生長的所有階段。在 CEA 設施內,農作物在 LED 照明下生長,並通過水培系統提供水和養分。加熱器、通風機、除濕器、二氧化碳濃縮器、加濕器和冷卻器用於控制最佳生長環境。
CEA 提供食品供應鏈所需的可追溯性和完整性,使當地生產的農產品能夠快速進入市場,並在那裡購買和消費。此外,通過使用 CEA,可以在保持恆定質量和數量的同時提供食物。無需防腐劑或蠟塗層即可向消費者提供新鮮食品。
高昂的安裝和設置成本
高壓鈉燈 (HPS)、熒光燈 (FL)、金屬鹵化物燈和電子鎮流器燈具有 LED 沒有的限制。然而,與熒光燈和高強度放電 (H□□ID) 燈泡等傳統照明技術相比,購買優質 LED 燈所需的初始支出更高。雖然一些 LED 植物燈的價格約為 100 美元,但有些非常昂貴。一流的全光譜 LED 植物生長燈也可以安裝為商業室內種植者的主要光源。
COVID-19 影響分析
由於全球健康問題,花更多時間與花卉和觀葉植物等休閒活動越來越受歡迎。隨著 COVID-19 恢復計劃認識到其重要性,進入城市地區的綠色空間正在增加。園藝一直是減輕 COVID-19 帶來的社會孤立對人們心理健康的負面影響的最佳愛好之一。
在大流行期間,通過園藝和採集的家庭糧食產量有所增加,這有利於飲食質量和糧食安全。政府和非政府組織有時會在封鎖期間向居民捐贈種子,以鼓勵家庭園藝,尤其是在弱勢或貧困地區。然而,由於病毒的出現和擴散,COVID-19 正在影響從上游芯片製造商到封裝再到照明 OEM 的整個 LED 照明供應鏈。
全球園藝照明市場報告提供了大約 85 個市場數據表、76 個數字和 217 頁的結構。
Horticulture Lighting Market reached US$ XX million in 2021 and is expected to record significant growth by reaching up to US$ XX million by 2029, growing at a CAGR of 28.80% during the forecast period (2022-2029).
Horticulture lighting activates many kinds of photoreceptors in plants to promote photosynthesis, photomorphogenesis, photoperiodism and phototropism in plants. All plants-including those that produce flowers, fruits and vegetables-need light, water, carbon dioxide and nutrients for survival and growth. Plants need light to catalyze the chemical reaction between carbon dioxide and water, creating the carbohydrates necessary for growth.
For their metabolism to function properly, for active development to occur, for plant quality to be maintained and for maximum yields, plants need enough light. Artificial light sources meet plant growth needs because sunlight's strength and spectrum are frequently variable. The sources can be used in addition to the sun or as the only light source for photosynthetic and photomorphogenic processes.
The rapidly increasing number of government initiatives to encourage the adoption of CEA practices and the rising importance of the farm-to-table concept are all driving the horticulture lighting market forward. However, the high costs required for setup and installation may hamper its growth.
Growing emphasis on the "farm to table" idea
A food philosophy known as "farm-to-table" emphasizes the flavor and nutritional benefits of locally grown, fresh foods. Restaurant operators may need more work to have a reliable supply chain, but the investment may be well worth it. According to a recent Nielsen poll, 51% of consumers prefer to support local businesses dining out. Most farm-to-table restaurants source their vegetables and dairy products from areas between 50 and 200 miles away from the restaurant.
There may eventually be a need for more locally produced goods across a range of markets in the hotel sector. Horticulture lighting is necessary for farm-to-table restaurants to guarantee timely output availability. Even though demand is growing, controlled environment agriculture can still provide food at the desired quality and quantity. Future years are expected to see a greater influence of this factor due to the rising demand for locally farmed food.
Growing acceptance for controlled-environment agriculture (CEA)
The creation of completely controlled settings for plant growth is known as CEA. Artificial systems supply water, temperature, humidity levels, ventilation, light and CO2 for plants at all stages of growth. Crops are grown inside a CEA facility under LED grow lights, with hydroponic systems supplying water and nutrients. To control the best growing climates, heaters, ventilators, dehumidifiers, CO2 enrichment, humidifiers and coolers are used.
With the traceability and integrity required by food supply chains, CEA enables locally grown, quickly-to-market produce that can be purchased and consumed where it is produced. Food may be delivered with uniform quality and quantity using CEA. To preserve fresh food consumer-ready, no preservatives or wax coatings are required.
High installation and setup costs
High-pressure sodium (HPS), fluorescent (FL), metal-halide and electric ballast lights have constraints that LEDs don't have. However, compared to conventional lighting technologies like fluorescent and high-intensity discharge (HID) bulbs, the initial expenditure required to buy high-quality LED lights is greater. While some LED grows lights cost around US$100, some are far more expensive. A top-notch, full-spectrum LED grow light can also be installed as the main lighting source for commercial indoor growing.
COVID-19 Impact Analysis
The globally health issue has increased the popularity of leisure activities, including spending more time with flowers and decorative plants. Access to green spaces in cities is growing due to the COVID-19 recovery plans' recognition of its importance. One of the best hobbies for reducing the detrimental effects of social isolation brought on by COVID-19 on people's emotional well-being was gardening.
During the pandemic, home food production from gardening and foraging had increased, which was good for diet quality and food security. Government and non-government organizations have occasionally donated seeds to the populace during a lockdown to encourage home gardening, particularly in underprivileged and impoverished areas. However, COVID-19 has impacted the whole LED lighting supply chain, from upstream chip producers to packaging and lighting OEMs, due to the emergence and propagation of the virus.
By technology, the horticulture lighting market is segmented into fluorescent, high-intensity discharge, light-emitting diodes and others.
Growing experiments with LED lighting for plant development
LEDs are extremely promising as primary or secondary illumination sources for interplanetary and terrestrial agricultural operations. Due to their small size, durability, long operational lifetime, wavelength specificity, relatively cold emitting surfaces and linear photon output with electrical input current, these solid-state light sources are ideal for plant lighting systems.
Due to the NASA plant growth research employing LED lighting, the light-emitting diode technology is gaining popularity in the horticultural sector. It has potential as a horticultural lighting fixture due to its low energy consumption, cool operation and flexibility to change the spectrum output to emit the specific wavelengths needed by plants.
Food demand in Europe is on the rise
Europe dominates the market for horticulture lighting and this trend is anticipated to remain in the foreseeable future. The summers of 2017, 2018 and 2019 provide evidence of dramatic disparities in weather conditions across Europe, based on the press release of the European Association of Fruit and Vegetable Processors on the impact of climate change. According to the European Environmental Agency's 2019 study, the impact of climate change might cause a loss of up to 16% in agricultural revenue in the EU by 2050. European farmers will have to use organic and cutting-edge farming techniques, such as horticulture lighting, to preserve sustainable agriculture.
Local LED lighting manufacturers are also developing a broad line of horticulture items and growing their network of collaborators. European farmers use new kinds and cutting-edge technology to lengthen their growing season. For instance, strawberries are often always accessible, despite being substantially more expensive in the winter. Their availability is maximized by greenhouse production and various early, mid-season and late cultivars.
The Hungarian lighting technology business Tungsram has decided to increase its knowledge of commercial strawberry farming. The company has sealed up with University of Reading, one of UK's most renowned horticulture-related higher education institutions, to examine the benefits of using LED lighting for strawberry development.
The top horticultural lighting companies are increasing their market share by introducing new products, forming business partnerships or acquisitions. For instance, the European Commission approved the acquisition of Osram by the Austrian optical sensor maker AMS in July 2020, stating that the combination would not threaten competition in the European Economic Area.
Major global horticulture lighting market companies include Royal Philips Electronics BV, Heliospectra AB, OSRAM GmbH, Illumitex Inc., LumiGrow Inc., Everlight Electronics Co. Ltd, Gavita International BV, Epistar Corp., Grow LED Hydro and Samsung Electronics Co. Ltd.
Heliospectra AB
Overview: Heliospectra was formed in 2006 in Sweden by plant scientists and biologists with a single goal: to improve crop production intelligence and efficiency. Heliospectra is the global leader in intelligent LED lighting systems for plant science and horticulture applications, with customers on six continents. Heliospectra products are based on a thorough understanding of plant physiology, photosynthesis and novel applications of contemporary LED technology.
Product Portfolio: Heliospectra provides LED grow lights created with a fixed and adaptable spectrum of light to meet the needs of all crops and stages of growth.
Key Development: In September 2019, Heliospectra AB will launch the MITRA series, a high-intensity, high-performance LED lighting system in North America. The groundbreaking MITRA LED lighting solution from Heliospectra is offered in Vegetative, Flowering and Broad Spectrum, with a square shape for indoor growing and use in vertical tiers and a linear form for easy installation with greenhouse unistrut structures.
The global horticulture lighting market report would provide access to an approx. 85 market data table, 76 figures and 217 pages.
Target Audience 2022
LIST NOT EXHAUSTIVE