Vertical Garden Construction Market was valued at USD 0.64 Billion in 2021, and it is expected to reach USD 1.30 Billion by 2029, exhibiting a CAGR of 8.2% during the forecast period (2022-2029)
Vertical Garden Construction Market Overview:One of the most important concerns in the twenty-first century is urbanisation, which generates several environmental issues such as concrete areas and population growth. Although shrinking urban green spaces generate several environmental issues, they provide a foundation for building vertical gardens. A vertical garden is a form of garden that can be freestanding or built within a structure. The builder of a vertical garden partially or totally covers the wall with plants that is integrated with a watering system. Grass, herbs, and even vegetables can be found in a vertical garden. Vertical gardens may be developed both indoors and outdoors, and they are thriving in a variety of settings. A vertical garden takes the place of a regular garden. Vertical gardens assist to conserve energy, save water, enhance air quality, and are aesthetically pleasing. Vertical gardens are the newest design and building trend in the world. The rise in demand for sustainable design and construction is expected to drive the global vertical garden construction market during the forecast period. To know about the Research Methodology :- Request Free Sample Report Research Methodology The Global Vertical Garden Construction Market report provides an evaluation of the market for the forecast period. The report comprises various segments as well as an analysis of the trends and factors that are playing a substantial role in the market. In the report, the market outlook section mainly encompasses fundamental dynamics of the market which include drivers, restraints, opportunities, and challenges faced by the industry. Based on the understanding of requirements, a secondary research is conducted to identify the segment specifications, qualitative and quantitative data along with the factors responsible for the growth of the market. The secondary source referred for the research are press releases, company annual reports, government websites, and research papers related to market. Moreover, quantitative and qualitative data is extracted from paid database like Reuters, Bloomberg, Hoovers, etc. The secondary research carried out at primary level is verified by primary research. In the report, Porter examines competition, new entrants in the market, supplier power, buyer power, and the threats of the substitute products and services in the market. PESTLE identifies factors like political, economic, sociocultural, technological, legal, and environmental that may affect an organization and its competitive standing. The main approach used to calculate accurate market size is bottom-up market sizing approach, where macro and micro view of all the potential customers, revenue and current market is considered as a whole. On the other hand, the research is also conducted by considering micro level segment that can be realistically targeted and calculated, which results in better forecasting and more accurate data on amore granular level.
Vertical Garden Construction Market DynamicsProviding biodiversity and habitat & Air Quality Improvement: The ecology relies heavily on biodiversity. Rapid urbanisation and shrinking natural spaces make biodiversity preservation more challenging, and the relationship between human activities and biodiversity is changing. Vertical garden systems installed in urban areas provide habitat for wildlife and vegetation. As a result, they contribute to increased biodiversity. The more plant kinds employed in vertical gardens, the greater the biodiversity. It should be noted, however, that various plant species require varying habitat requirements. As a result, plant species should be picked with caution. Vertical gardens are efficient ways to improve indoor and outdoor air quality. The major causes of air pollution are population expansion and rising industrialisation in metropolitan areas. Vertical garden systems improve the amount of green space available in metropolitan settings. Exhaust gas, airborne dust, and CO2 can be absorbed by plants in the system. The amount of absorption is dependent on the characteristics of the plants. Vertical gardens are more effective than street trees in reducing air pollution, particularly in metropolitan areas. Because they can circulate pollutants from the air more effectively and quickly. These factors are expected to drive market expansion during the forecast period. Sound isolation and barring bad images: Increased urban population has brought with it the problem of noise pollution as a result of increased migration from rural regions to cities. Depending on the population, the growing number of automobiles in cities increases noise pollution and reduces people's quality of life. Vertical garden systems are the most effective technique to reduce the harmful impacts of noise pollution. Because they can act as a sound barrier. The growth material and plant species used in vertical garden systems will help to reduce sound levels that transmit through or reflect from the system. The depth of the growth media, the materials utilised as structural components of the vertical garden system, and the plant species employed in the vertical garden system are all factors that impact noise reduction (evergreen plant species are more effective). Vertical garden systems can also be utilised as a visual barrier. Using these techniques, green visuals can replace unwanted images such as waste. During the forecast period, this is most likely to increase demand for vertical garden construction. Increasing energy efficiency: Today, several disciplines dealing with these concerns are investigating the decline of energy supplies and the growth in energy demand. As a result, the notion of "Energy Efficient Building Design" has arisen. Vertical gardens are one of the features of energy efficient building design. Vertical garden systems may be utilised for heating in the winter and cooling in the summer. Through external temperature management, these systems increase thermal insulating capability. The key aspects of energy efficiency are the kind of vertical garden system, the material for vertical garden system application, the insulating material used in the system, the plant species employed, and the density of usage. Increasing amount of green space in the cities & bringing rainwater to the ecological cycle: The speed of construction is growing as the urban population grows. People's access to urban green spaces that provide leisure opportunities is dwindling. Vertical gardens were inspired by the degradation of green areas in the horizontal plane. As a result, urban areas may regain green space. In vertical garden systems, drip irrigation is commonly employed. This system delivers fertiliser elements and water to plants. The irrigation system's goal is to appropriately deliver these elements to the root zone of the plants. Vertical garden systems minimise flooding by delaying the drainage of rainfall. In addition, a vertical garden design allows plants to utilise rainfall. The plants filter the rainwater and channel it into the ecological cycle. Adding aesthetic and economic value to the structures & reducing urban heat island effect: In our everyday lives, we spend the majority of our time in areas where grey walls are distant from the aesthetic notion. People's living spaces are becoming increasingly drab, with less green places accessible in cities. Vertical garden systems contribute to the aesthetic value of the landscape in which they are used. People nowadays want to live in a green environment. This condition is raising the pricing of projects with additional green spaces. The term "Urban Heat Island" refers to the urban temperature being greater than the surrounding countryside as a result of urbanisation. During the day, building facades and hard surfaces absorb the sun's rays. This raises the temperature of the city, especially at night. This detrimental impact can be mitigated by increasing the quantity of green space available in the city. They do so because they reflect the sun's beams. Vertical garden systems help to reduce the urban heat island effect by increasing the evaporation surface and reflecting sunlight. Maintenance frequency and difficulty: Vertical gardens require upkeep since they are living systems. The frequency of maintenance is determined by the kind of vertical garden, weather circumstances, and plant varieties. Carrier panels and isolation materials used in vertical gardens are often resistant to environmental conditions. As a result, upkeep is often associated with plant variety and irrigation systems. However, if the carrier panel or isolation material is damaged, they must be replaced. As with any landscaping project, plants that are suitable for the environment must be chosen. However, there are still damaged or dead plants that must be changed. Also necessary is maintenance work to ensure that the irrigation systems are not impacted by frost during the winter months. It should also be noted that the addition of plant feeding components and frequent trimming work to achieve the desired impact. It should be noted that maintenance on a vertical surface is more difficult than maintenance on a horizontal surface. Furthermore, for long-term sustainability, maintenance and repair work should not be overlooked. This factor is expected to restain the market growth during the forecast period. High cost & Irrigation systems problems: The cost of the work that will be applied to a vertical surface is higher than that of a horizontal surface. The carrier profile, isolation material, irrigation system components, drainage system, plant growth media, plant species, and routine maintenance expenditures are the most expensive parts in the vertical garden (maintenance of irrigation system, drainage system and plant species). On vertical gardens, drip irrigation systems with automated timing devices are commonly employed. Various irrigation system failures might pose problems in terms of time and money. As a result, irrigation system controls should be maintained on a regular basis, with special attention paid to frost protection in irrigation systems throughout the winter. It should also be noted that the vertical garden on the south façade will require more water than the vertical garden on the north façade due to evaporation. It is critical to control the amount of fertilisers during routine irrigation system maintenance. This is expected to hamper with the growth of the market during the forecast period.
Vertical Garden Construction Market Segment AnalysisBy type, the vertical garden construction market is classified into indoor vertical garden wall and outdoor vertical garden wall. The outdoor vertical garden wall segment is estimated to dominate the market over the forecast period for the many projects implemented in the outdoor vertical garden wall and various applications like buildings and hotels. Outdoor vertical walls reduce the urban heat island effect, driving demand for vertical gardens. This trend is expected to continue over the projection period, creating new chances for numerous businesses. Vertical gardens give beauty and visual drama to the environment, living plants reduce stress, hide plain or unsightly walls, and provide building protection. It reduces noise levels, conserves water, prevents dust and hazardous bacteria, works as natural insulation for hot and cold air, and saves energy for buildings, all of which contribute to a more serene environment and increase the value and saleability of houses or office buildings. It also aids in the restoration of habitats for animals. All these factors are expected to drive the global vertical garden construction market during the forecast period. By application, the vertical garden construction market is classified into commercial & residential. Among these, the commercial application segment is expected to dominate the market over the forecast period for its wide applications and rising sustainable building construction practices. Skyscrapers are in high demand due to a lack of horizontal space. The growing number of skyscrapers being built throughout the world has constrained horizontal building due to the limited space available in metropolitan areas. Vertical gardens have therefore become the most practical alternative for developers. Because wall gardens may be installed on existing structures, it is expected that worldwide developers will adopt similar approaches. Furthermore, the installation of vertical gardening systems will assist to raise the property value and draw significant client demand. Based on systems, the market is segmented into modular system, foam based system, mineral wool based system, and felt layer based system. Modular systems are the most common type of vertical garden systems and is expected to dominate the systems segment during the forecast period. A modular system may be defined as producing vertical gardens with panels or flowerpots that contain plants. At the lowest layer of both systems, there is a carrier profile. Panels or flowerpots are then attached to the carrier profile. Plant material is placed in the panel or pots. Drip irrigation distributes nutrients to plants in many types of vertical gardens. To prevent adding weight to the system, a minimal amount of peat and soil might be employed. The foam-based substrate, which is comprised of aminoplast resin foam, is attached to the aforementioned carrier profile in a foam-based system. This plant medium is particularly water efficient and resilient for a broad variety of plants and climatic types. Panels which used in foam based vertical garden system has a standard size of 1000mm x 490mm x 140mm. Drip irrigation which conveys nutrient and water to the plants is used in this system. The panels made of mineral wool are installed above the carrier profile in a mineral wool-based system. The normal dimensions of these panels are 75mm x 600 x 1000mm. Each panel weighs 15 kg and contains 16 plantable sections. Felt material serves as a substrate for plants in a Felt layer-based system. It allows water to diffuse uniformly and does not mould. In this form of vertical garden, nutrients and water are often delivered to the plants by a drip irrigation system. In this technique, a waterproof isolation material is employed to protect the facade from water and moisture damage. Excess water is collected in a dropper beneath the frame and reused. Famous French botanist Patrick Blanc’s technique grounds on this system.
Vertical Garden Construction Market Regional InsightsAsia Pacific is estimated to dominate the vertical garden construction market and expected to growth at a high CAGR over the forecast period. China, the world's second biggest economy, is expected to reach a market size of USD 355.7 million by 2029, growing at a CAGR of 12.7 percent from 2022 to 2029. The market in Japan is expected to develop at a substantial CAGR of 6.6 percent over the forecast period. Increasing construction projects, India, China, and South Korea strengthening their infrastructural bases, focus on the construction of vertical gardens that filter the air and reduce greenhouse gas emissions by converting carbon dioxide into oxygen, and the integration of modern construction advances and green building practises are all contributing to the region's global vertical garden construction market growth. Furthermore, increased building and construction activity, emphasis on green construction practises, increased consumer awareness, adoption of energy-saving practises, and government initiatives for green roofs and walls to reduce pollution, heating effect, and storm water value are all contributing to market growth. In Europe, the vertical garden construction market is estimated to witness significant growth over the forecast period. Germany is expected to expand at a CAGR of about 7.5 percent in Europe. Growing urbanisation, rising food consumption, the need for new productive gardening activities, the need to reduce fresh produce imports, and poor weather conditions for conventional farming are all contributing to the region's vertical garden building market growth. During the forecast period, North America is expected to have a major share of the market. In 2029, the Vertical Garden Construction market in the United States is expected to be worth USD 608 million. Other notable geographic markets include the United States and Canada, which are expected to increase at 10.6 percent and 8.2 percent, respectively, over the forecast period. Middle East & Africa, and South America regions are expected to witness a steady growth over the forecast period. Vertical gardens, also known as living walls, are sprouting up all over the UAE as inventive new technology, along with a greater understanding of horticulture, have broadened the possible architectural permutations of this living art form. Living walls are also increasingly being used to beautify office buildings in the UAE. As part of an extension of Dubailand's Miracle Garden, Dubai will construct the world's largest vertical garden and the world's largest butterfly garden. In addition, Emirates Flight Catering operates the world's largest vertical farm in Dubai. The USD 40 million Bustanica hydroponic farm near DWC would produce more than a million kilos of greens per year while using 95% less water than traditional farming.
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Global Vertical Garden Construction Market Report Coverage Details Base Year: 2021 Forecast Period: 2022-2029 Historical Data: 2017 to 2021 Market Size in 2021: US 0.64 Bn. Forecast Period 2022 to 2029 CAGR: 8.2 % Market Size in 2029: US 1.30 Bn. Segments Covered: by Type • Indoor Vertical Garden Wall • Outdoor Vertical Garden Wall by Application • Residential • Commercial by Systems • Modular system • Foam based system • Mineral wool based system • Felt layer based system
Vertical Garden Construction Market, by Region• North America • Europe • Asia Pacific • Middle East and Africa • South America
Vertical Garden Construction Market Key Players• LiveWall, LLC • Sempergreen BV • The Greenwall Company • ZTC International Landscape Solutions (P) Ltd. • Rentokil Initial plc • American Hydrotech, Inc. • ANS Group Global Ltd • Biotecture Ltd. • Elmich Australia • Fytogreen Australia. • A+ Lawn & Landscape • Four Leaf Landscape • GreenWalls Bioengineering • Atlantis Corporation Australia Pty Ltd • PAISAJISMO URBANO • GSky Plant Systems, Inc. • Green Roof Outfitters, Inc. • Treebox Limited • SkALE Greenwall • Sage Vertical Garden Systems LLC Frequently Asked Questions: 1] What segments are covered in the Global Vertical Garden Construction Market report? Ans. The segments covered in the Vertical Garden Construction Market report are based on Type, Systems, and Application. 2] Which region is expected to hold the highest share in the Global Vertical Garden Construction Market? Ans. The Asia Pacific region is expected to hold the highest share in the Vertical Garden Construction Market. 3] What is the market size of the Global Vertical Garden Construction Market by 2029? Ans. The market size of the Vertical Garden Construction Market by 2029 is expected to reach USD 1.30 Bn. 4] What is the forecast period for the Global Vertical Garden Construction Market? Ans. The forecast period for the Vertical Garden Construction Market is 2021-2029. 5] What was the market size of the Global Vertical Garden Construction Market in 2021? Ans. The market size of the Vertical Garden Construction Market in 2021 was valued at USD 0.64 Bn.
1. Global Vertical Garden Construction Market Size: Research Methodology 2. Global Vertical Garden Construction Market Size: Executive Summary 2.1. Market Overview and Definitions 2.1.1. Introduction to Global Vertical Garden Construction Market Size 2.2. Summary 2.2.1. Key Findings 2.2.2. Recommendations for Investors 2.2.3. Recommendations for Market Leaders 2.2.4. Recommendations for New Market Entry 3. Global Vertical Garden Construction Market Size: Competitive Analysis 3.1. MMR Competition Matrix 3.1.1. Market Structure by region 3.1.2. Competitive Benchmarking of Key Players 3.2. Consolidation in the Market 3.2.1 M&A by region 3.3. Key Developments by Companies 3.4. Market Drivers 3.5. Market Restraints 3.6. Market Opportunities 3.7. Market Challenges 3.8. Market Dynamics 3.9. PORTERS Five Forces Analysis 3.10. PESTLE 3.11. Regulatory Landscape by region • North America • Europe • Asia Pacific • The Middle East and Africa • South America 3.12. COVID-19 Impact 4. Global Vertical Garden Construction Market Size Segmentation 4.1. Global Vertical Garden Construction Market Size, by Type (2021-2029) • Indoor Vertical Garden Wall • Outdoor Vertical Garden Wall 4.2. Global Vertical Garden Construction Market Size, by Application (2021-2029) • Residential • Commercial 4.3. Global Vertical Garden Construction Market Size, by Systems (2021-2029) • Modular system • Foam based system • Mineral wool based system • Felt layer based system 5. North America Vertical Garden Construction Market (2021-2029) 5.1. North America Vertical Garden Construction Market Size, by Type (2021-2029) • Indoor Vertical Garden Wall • Outdoor Vertical Garden Wall 5.2. North America Vertical Garden Construction Market Size, by Application (2021-2029) • Residential • Commercial 5.3. Global Vertical Garden Construction Market Size, by Systems (2021-2029) • Modular system • Foam based system • Mineral wool based system • Felt layer based system 5.4. North America Vertical Garden Construction Market, by County (2021-2029) • United States • Canada 6. European Vertical Garden Construction Market (2021-2029) 6.1. European Vertical Garden Construction Market, by Type (2021-2029) 6.2. European Vertical Garden Construction Market, by Application (2021-2029) 6.3. European Vertical Garden Construction Market, by Systems (2021-2029) 6.4. European Vertical Garden Construction Market, by Country (2021-2029) • UK • France • Germany • Italy • Spain • Sweden • Austria • Rest Of Europe 7. Asia Pacific Vertical Garden Construction Market (2021-2029) 7.1. Asia Pacific Vertical Garden Construction Market, by Type (2021-2029) 7.2. European Vertical Garden Construction Market, by Systems (2021-2029) 7.3. Asia Pacific Vertical Garden Construction Market, by Application (2021-2029) 7.4. Asia Pacific Vertical Garden Construction Market, by Country (2021-2029) • China • India • Japan • South Korea • Australia • ASEAN • Rest Of APAC 8. Middle East and Africa Vertical Garden Construction Market (2021-2029) 8.1. Middle East and Africa Vertical Garden Construction Market, by Type (2021-2029) 8.2. European Vertical Garden Construction Market, by Application (2021-2029) 8.3. Middle East and Africa Vertical Garden Construction Market, by Systems (2021-2029) 8.4. Middle East and Africa Vertical Garden Construction Market, by Country (2021-2029) • South Africa • GCC • Egypt • Nigeria • Rest Of ME&A 9. South America Vertical Garden Construction Market (2021-2029) 9.1. South America Vertical Garden Construction Market, by Type (2021-2029) 9.2. European Vertical Garden Construction Market, by Systems (2021-2029) 9.3. South America Vertical Garden Construction Market, by Application (2021-2029) 9.4. South America Vertical Garden Construction Market, by Country (2021-2029) • Brazil • Mexico • Argentina • Rest Of South America 10. Company Profile: Key players 10.1. LiveWall, LLC 10.1.1. Company Overview 10.1.2. Financial Overview 10.1.3. Global Presence 10.1.4. Capacity Portfolio 10.1.5. Business Strategy 10.1.6. Recent Developments 10.2. Sempergreen BV 10.3. The Greenwall Company 10.4. ZTC International Landscape Solutions (P) Ltd. 10.5. Rentokil Initial plc 10.6. American Hydrotech, Inc. 10.7. ANS Group Global Ltd 10.8. Biotecture Ltd. 10.9. Elmich Australia 10.10. Fytogreen Australia. 10.11. A+ Lawn & Landscape 10.12. Four Leaf Landscape 10.13. GreenWalls Bioengineering 10.14. Atlantis Corporation Australia Pty Ltd 10.15. PAISAJISMO URBANO 10.16. GSky Plant Systems, Inc. 10.17. Green Roof Outfitters, Inc. 10.18. Treebox Limited 10.19. SkALE Greenwall 10.20. Sage Vertical Garden Systems LLC