Horticulture Bioplastic Market is worth USD 4.12 Billion in 2022 and is estimated to grow at a CAGR of 12.2% in the forecasted period. The forecasted revenue hints at around 9.43 billion USD in growth by 2029.Market Overview:
The horticulture bioplastic market has been exploring sustainable alternatives to traditional plastic products and has gained huge success in recent times. As awareness has increased, more people are becoming environmentally conscious which is driving the growing demand for bioplastics in various sectors, including horticulture. Bioplastics offer a promising solution by reducing the reliance on fossil fuels and providing an excellent alternative to hazardous plastic products. For qualitative and quantitative horticultural production, plastics are used for various purposes like mulching, cladding materials for protective structures, nets, pressurized irrigation, soil solarization, plastic traps, propagation, sleeving and packaging. Thus, the use of traditional plastic not only damages fruits and vegetables but also causes the degradation of soil which impacts all the seeds sown. This creates a huge gap which can be catered to by Horticulture Bioplastic Market. Bioplastic can thus replace a huge market of plastic in the horticulture industry. Bioplastics are best defined as plastics in which all carbon is derived from renewable feed stocks or in simpler terms Bioplastics are derived from renewable sources such as plant starch, cellulose, and vegetable oils which help in aiding soil and crops without much complexities of degradation.Horticulture uses bioplastics extensively. They can make compostable plant pots, trays, and containers. Biodegradable pots improve root development, reduce transplant shock, and eliminate plastic waste. Bioplastic films can also be used as a substitute for conventional plastic films in greenhouses, providing UV protection, temperature regulation, and improved light transmission. North America has been crucial in shaping the horticulture bioplastic market and is the leading region amongst others. The United States has a strong presence of major bioplastic manufacturers and a well-established horticulture industry that embraces sustainable practices. Companies like NatureWorks LLC, Danimer Scientific, Eco-Products, and Yield10 Bioscience have contributed significantly to the market share. As environmental concerns are becoming a major concern, the demand for alternatives is going to increase which is reflected through such a high CAGR of 12.2%.To know about the Research Methodology :- Request Free Sample Report Environmental Awareness is Driving the Growth in Horticulture Bioplastic Market Growing environmental concern is the most crucial factor in the growth of the horticulture bioplastic market. The concerns have driven consumers to look for alternatives making it eminent for buyers to choose bioplastic for a sustainable future. Bioplastics in horticulture offer eco-friendlier solutions by reducing reliance on fossil fuels, minimizing carbon emissions, and promoting circular economy principles. After the season, they can be used as compost or use them as soil nutrition. This reduces landfill plastic. Bioplastics reduce pesticides and fertilisers, which harm the environment. It also improves soil quality and reduces runoff. Bioplastics have ensured that the efficiency and performance of these plastics remain at par with the traditional ones plastics are environmentally friendly in nature and offer sustainable attributes to the consumers, creating a positive perception thateventually drivesmarket growth. Effective marketing campaigns highlighting the benefits of horticulture bioplastics further contribute to increased adoption and market expansion. Bioplastics are now UV-resistant, water-resistant, durable, and thermally stable, making them suitable for horticulture applications. Ongoing research and development efforts have led to advancements in bioplastic technology, resulting in improved material properties, cost-effectiveness, and scalability. These advancements make bioplastics more attractive for commercial adoption in the horticulture industry. The government has played a key role in changing buyers’ mindsetsThe strict rules of the environment have helped hugely to gather a higher per cent of the market. Governments worldwide are implementing regulations and policies to reduce plastic waste and promote sustainable practices. These regulations, such as bans on single-use plastics and incentives for biodegradable alternatives are ensuring that the market heads forward in future. Higher Cost Becoming a Huge Challenge in Horticulture Bioplastic Market Cost is a major concern in the horticulture bioplastic market. The higher cost has been preventing its widescale use. Bioplastics tend to become expensive to produce compared to traditional plastics. The higher production costs can pose a challenge for horticulture businesses, especially small-scale growers, who may have limited budgets. Also, the time required to produce is higher in terms of bioplastics. The costs of raw materials can fluctuate due to factors like availability, demand, and crop yields. Additionally, the cultivation and processing of these feedstocks may require specialized practices, further adding to the production costs. Supply chain challenges like the availability of bioplastic materials, processing facilities, and recycling infrastructure vary across regions which limits access to raw materials, processing capabilities, and recycling options. The processing and manufacturing of bioplastics require specialized equipment, technologies, and expertise. The limited availability of processing facilities capable of handling bioplastics can pose challenges in terms of geographical accessibility and production capacity. Bioplastics can have specific storage or handling requirements, such as temperature control or protection from moisture which again bears huge cost and expertise to work properly. Bioplastics, being a sustainable alternative to traditional plastics, require appropriate waste management solutions which becomes a challenge as the recycling infrastructure isn’t well developed in all regions. So, building a suitable ecosystem will require time, efforts and huge investments in order to sustain a good future in horticulture bioplastic market. Growing Acceptance is a Key Trend in Horticulture Bioplastic Market Horticulture is using bio-based materials as a sustainable alternative to plastics.This has been the major factor in a growing trend. Due to their low environmental effect, bioplastics made from starch, PLA, and PHA are gaining more popularity. Bioplastics are being used in horticulture beyond greenhouse coverings and plant pots. Mulch films, seed trays, irrigation systems, packing, and nursery containers utilise them. This has increased the wider dimension of the horticulture bioplastic market. The invention of cellulose nanofibers has been groundbreaking and has benefitted a lot to the market. Cellulose nanofibersprovide properties like tenacity at the same time they are also lightweight which makes them ideal in horticulture bioplastic market. For example, cellulose nanofibers improve the drainage and aeration of soil which is a crucial process in horticulture. Improved UV resistance, increased mechanical strength, more water permeability, and biodegradability have all been incorporated in newer batches. Bioplastics are becoming more eco-friendly and are becoming perfect substitutes forregular plastics thanks to better material compositions and additives. The use of 3D printing has helped in creating customised, complicated forms and structures, enabling the development of novel horticulture goods with decreased material waste and improved functioning. The continuous work on R&D has helped the market reduce the burden and upgrade bioplastic manufacturing.
Horticulture Bioplastic Market Segmentation
Horticulture Bioplastic Market Segmentation, by Type Bio Based and Petrochemical Based are the two main types of horticulture bioplastic market. Bio Based has seen an increasing market share. With increasing stress on petrochemical products, the rise of bio-based types is eminent which is displayed on the market share. Bio Based types are also expected to grow incrementally in future. Horticulture Bioplastic Market Segmentation, by Raw Material Starch-based bioplastics, Polylactic acid, Polyhydroxyalkanoates and Polybutylene adipateterephthalate are the four segments in the horticulture bioplastic market. Polylactic acid has seen the highest market share as it has several attractive mechanical properties that too at a lower cost. Additionally, PLA is a kind of aliphatic polyester obtained by ring-opening polymerization of lactide monomer. This makes the material dynamic and increases its application. Starch based bioplastics are also good options but they do not offer much durability.Horticulture Bioplastic Market Segmentation, by Application Greenhouse films, Mulch films, Plant pots, Trays, Containers and Irrigation systems are the major application seen in the horticulture bioplastic market. Greenhouse films have shown the highest market share amongst the sub segments. The growth of the segment is being driven by the increasing demand for greenhouse-protected cultivation, which is being fuelled by the rising population and the growing demand for food production. Greenhouse films also play a huge role in the betterment of crops and generate higher yields.
Horticulture Bioplastic Market Segmentation, by End User Professional horticulture growers, Nurseries, Landscaping companies and Home gardeners are the four segments in the horticulture bioplastic market. Home gardeners have the highest market share and are expected to grow in future. Home gardeners are a crucial segment as the majority of the plants grown are through this segment. Nurseries and Landscaping are also other end users but mainly the market is dominated by Home gardeners. Horticulture Bioplastic Market Segmentation, by Region North America has been the market leader in Horticulture Bioplastic Market. Biodegradable and compostable greenhouse films, nursery containers, and mulch films are in high demand in this region. US and Canada have seen huge growth, especially in the last decade as environmental concerns have risen. Well-developed infrastructure and an efficient ecosystem have helped the Horticulture Bioplastic Market grow in these regions. Europe's significant government backing and waste management infrastructure promote bio-based horticultural materials. Germany, the Netherlands, and Spain lead bioplastic usage in mulch films, plant pots, and packaging.Horticulture bioplastic sales are rising in China and India. Bioplastics are growing due to the region's horticultural sector and environmental concerns. Brazil and Mexico are using horticulture bioplastics to reduce plastic waste and promote biodegradability. The horticulture bioplastic market is new to the Middle East and Africa. Biobased solutions for dry agriculture are being explored to diversify economies and minimise oil dependence. With an increasingly eco-conscious population, Australia and New Zealand are likewise interested in horticulture bioplastics.
Competitive Landscape
Horticulture Bioplastic Market has been dynamic and competitive but is often backed by technology and innovation. Established players like BASF SE, Danimer Scientific, have a significant hold over the market share. US companies have an added advantage with their manufacturing capacity and excess demand. Some new companies have brought innovations which have transformed the market dynamics. Example - Bio-on is an Italian company that produces Mater-Bi, a bioplastic made from wheat or potato starch. Muse Global is a Canadian company that produces Mirel, a bioplastic made from sugarcane. NatureFlex is used to make a variety of products for the horticulture market, including plant pots, trays, and mulch films. Thus, each company has positioned itself differently and has specialised in one form or another. The market has also seen bioplastic production from oils and one such example is Arkema SA which produces bioplastics under the brand name Pebax Rnew. These biopolymers are derived from castor oil which offers more flexibility, durability, and biodegradability. Arkema's bioplastics find applications in horticulture, including greenhouse films, irrigation systems, and plant containers. The market has seen huge collaborations like NatureWorks LLC and Danimer Scientific have collaborated to develop and commercialize polyhydroxyalkanoates (PHAs), a class of biodegradable polymers derived from renewable resources. Thus, the market has huge potential and is expected to be even more competitive when the need for bioplastic reaches its peakHorticulture Bioplastic Market Scope: Inquire before buying
Global Horticulture Bioplastic Market Report Coverage Details Base Year: 2022 Forecast Period: 2023-2029 Historical Data: 2018 to 2022 Market Size in 2022: US $ 4.12 Bn. Forecast Period 2023 to 2029 CAGR: 12.2% Market Size in 2029: US $ 9.43 Bn. Segments Covered: by Row Material Starch-based bioplastics Polylactic acid Polyhydroxyalkanoates Polybutylene adipate terephthalate by Type Bio Based Petrochemical Based by Application Greenhouse films Mulch films Plant pots Trays Containers Irrigation systems by End-User Professional horticulture growers Nurseries Landscaping companies Home gardeners Horticulture Bioplastic Market, by Region
North America (United States, Canada and Mexico) Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe) Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC) Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) South America (Brazil, Argentina Rest of South America)Key Players
1. NatureWorks LLC (United States) 2. Danimer Scientific (United States) 3. Yield10 Bioscience, Inc. (United States) 4. Green Dot Bioplastics (United States) 5. Eco-Products, Inc. (United States) 6. Fkur Plastics Corp. (United States) 7. BASF SE (Germany) 8. Novamont S.p.A (Italy) 9. Biome Bioplastics Ltd (United Kingdom) 10. Total Corbion PLA (Netherlands) 11. Arkema S.A. (France) 12. Bio-On S.p.A (Italy) 13. FKuR Kunststoff GmbH (Germany) 14. Biobag International AS (Norway) 15. Plaxica Limited (United Kingdom) 16. Bio-Fed (Germany) 17. API SpA (Italy) 18. Bio4Pack BV (Netherlands) 19. Tianan Biologic Materials Co., Ltd. (China) 20. Kaneka Corporation (Japan) 21. PTT MCC Biochem Company Limited (Thailand) 22. Plantic Technologies Limited (Australia) 23. Mitsubishi Chemical Corporation (Japan) 24. Cardia Bioplastics Limited (Australia) 25. Braskem S.A. (Brazil) FAQ Q.1) What is the CAGR of the Horticulture Bioplastic market? Ans: The CAGR for the Horticulture Bioplastic market is 12.2%. Q.2) Which are the leading companies in the Horticulture Bioplastic market? Ans:NatureWorks LLC, Danimer Scientific and Yield10 Bioscience are some of the leading companies in the Horticulture Bioplastic market. Q.3)Which region shows maximum potential in the Horticulture Bioplastic market? Ans: Asia-Pacific is expected to grow exponentially and is likely to dominate the Horticulture Bioplastic market in future. Q,4)Which is the leading region in the Horticulture Bioplastic market? Ans: North America leads the market inthe Horticulture Bioplastic market significantly. Q.5) What was the forecasted period of this report? Ans: The forecasted period for the Horticulture Bioplastic market research was 2023 – 2029.
1. Horticulture Bioplastic Market Introduction 1.1. Study Assumption and Market Definition 1.2. Scope of the Study 1.3. Executive Summary 2. Horticulture Bioplastic Market: Dynamics 2.1. Horticulture Bioplastic Market Trends by Region 2.1.1. North America Horticulture Bioplastic Market Trends 2.1.2. Europe Horticulture Bioplastic Market Trends 2.1.3. Asia Pacific Horticulture Bioplastic Market Trends 2.1.4. Middle East and Africa Horticulture Bioplastic Market Trends 2.1.5. South America Horticulture Bioplastic Market Trends 2.2. Horticulture Bioplastic Market Dynamics by Region 2.2.1. North America 2.2.1.1. North America Horticulture Bioplastic Market Drivers 2.2.1.2. North America Horticulture Bioplastic Market Restraints 2.2.1.3. North America Horticulture Bioplastic Market Opportunities 2.2.1.4. North America Horticulture Bioplastic Market Challenges 2.2.2. Europe 2.2.2.1. Europe Horticulture Bioplastic Market Drivers 2.2.2.2. Europe Horticulture Bioplastic Market Restraints 2.2.2.3. Europe Horticulture Bioplastic Market Opportunities 2.2.2.4. Europe Horticulture Bioplastic Market Challenges 2.2.3. Asia Pacific 2.2.3.1. Asia Pacific Horticulture Bioplastic Market Drivers 2.2.3.2. Asia Pacific Horticulture Bioplastic Market Restraints 2.2.3.3. Asia Pacific Horticulture Bioplastic Market Opportunities 2.2.3.4. Asia Pacific Horticulture Bioplastic Market Challenges 2.2.4. Middle East and Africa 2.2.4.1. Middle East and Africa Horticulture Bioplastic Market Drivers 2.2.4.2. Middle East and Africa Horticulture Bioplastic Market Restraints 2.2.4.3. Middle East and Africa Horticulture Bioplastic Market Opportunities 2.2.4.4. Middle East and Africa Horticulture Bioplastic Market Challenges 2.2.5. South America 2.2.5.1. South America Horticulture Bioplastic Market Drivers 2.2.5.2. South America Horticulture Bioplastic Market Restraints 2.2.5.3. South America Horticulture Bioplastic Market Opportunities 2.2.5.4. South America Horticulture Bioplastic Market Challenges 2.3. PORTER’s Five Forces Analysis 2.4. PESTLE Analysis 2.5. Technology Roadmap 2.6. Regulatory Landscape by Region 2.6.1. North America 2.6.2. Europe 2.6.3. Asia Pacific 2.6.4. Middle East and Africa 2.6.5. South America 2.7. Key Opinion Leader Analysis For Horticulture Bioplastic Industry 2.8. Analysis of Government Schemes and Initiatives For Horticulture Bioplastic Industry 2.9. Horticulture Bioplastic Market Trade Analysis 2.10. The Global Pandemic Impact on Horticulture Bioplastic Market 3. Horticulture Bioplastic Market: Global Market Size and Forecast by Segmentation by Demand and Supply Side (by Value in USD Million) 2022-2029 3.1. Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 3.1.1. Starch-based bioplastics 3.1.2. Polylactic acid 3.1.3. Polyhydroxyalkanoates 3.1.4. Polybutylene adipate terephthalate 3.2. Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 3.2.1. Bio Based 3.2.2. Petrochemical Based 3.3. Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 3.3.1. Greenhouse films 3.3.2. Mulch films 3.3.3. Plant pots 3.3.4. Trays 3.3.5. Containers 3.3.6. Irrigation systems 3.4. Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 3.4.1. Professional horticulture growers 3.4.2. Nurseries 3.4.3. Landscaping companies 3.4.4. Home gardeners 3.5. Horticulture Bioplastic Market Size and Forecast, by Region (2022-2029) 3.5.1. North America 3.5.2. Europe 3.5.3. Asia Pacific 3.5.4. Middle East and Africa 3.5.5. South America 4. North America Horticulture Bioplastic Market Size and Forecast by Segmentation (by Value in USD Million) 2022-2029 4.1. North America Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 4.1.1. Starch-based bioplastics 4.1.2. Polylactic acid 4.1.3. Polyhydroxyalkanoates 4.1.4. Polybutylene adipate terephthalate 4.2. North America Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 4.2.1. Bio Based 4.2.2. Petrochemical Based 4.3. North America Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 4.3.1. Greenhouse films 4.3.2. Mulch films 4.3.3. Plant pots 4.3.4. Trays 4.3.5. Containers 4.3.6. Irrigation systems 4.4. North America Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 4.4.1. Professional horticulture growers 4.4.2. Nurseries 4.4.3. Landscaping companies 4.4.4. Home gardeners 4.5. North America Horticulture Bioplastic Market Size and Forecast, by Country (2022-2029) 4.5.1. United States 4.5.1.1. United States Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 4.5.1.1.1. Starch-based bioplastics 4.5.1.1.2. Polylactic acid 4.5.1.1.3. Polyhydroxyalkanoates 4.5.1.1.4. Polybutylene adipate terephthalate 4.5.1.2. United States Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 4.5.1.2.1. Bio Based 4.5.1.2.2. Petrochemical Based 4.5.1.3. United States Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 4.5.1.3.1. Greenhouse films 4.5.1.3.2. Mulch films 4.5.1.3.3. Plant pots 4.5.1.3.4. Trays 4.5.1.3.5. Containers 4.5.1.3.6. Irrigation systems 4.5.1.4. United States Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 4.5.1.4.1. Professional horticulture growers 4.5.1.4.2. Nurseries 4.5.1.4.3. Landscaping companies 4.5.1.4.4. Home gardeners 4.5.2. Canada 4.5.2.1. Canada Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 4.5.2.1.1. Starch-based bioplastics 4.5.2.1.2. Polylactic acid 4.5.2.1.3. Polyhydroxyalkanoates 4.5.2.1.4. Polybutylene adipate terephthalate 4.5.2.2. Canada Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 4.5.2.2.1. Bio Based 4.5.2.2.2. Petrochemical Based 4.5.2.3. Canada Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 4.5.2.3.1. Greenhouse films 4.5.2.3.2. Mulch films 4.5.2.3.3. Plant pots 4.5.2.3.4. Trays 4.5.2.3.5. Containers 4.5.2.3.6. Irrigation systems 4.5.2.4. Canada Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 4.5.2.4.1. Professional horticulture growers 4.5.2.4.2. Nurseries 4.5.2.4.3. Landscaping companies 4.5.2.4.4. Home gardeners 4.5.3. Mexico 4.5.3.1. Mexico Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 4.5.3.1.1. Starch-based bioplastics 4.5.3.1.2. Polylactic acid 4.5.3.1.3. Polyhydroxyalkanoates 4.5.3.1.4. Polybutylene adipate terephthalate 4.5.3.2. Mexico Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 4.5.3.2.1. Bio Based 4.5.3.2.2. Petrochemical Based 4.5.3.3. Mexico Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 4.5.3.3.1. Greenhouse films 4.5.3.3.2. Mulch films 4.5.3.3.3. Plant pots 4.5.3.3.4. Trays 4.5.3.3.5. Containers 4.5.3.3.6. Irrigation systems 4.5.3.4. Mexico Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 4.5.3.4.1. Professional horticulture growers 4.5.3.4.2. Nurseries 4.5.3.4.3. Landscaping companies 4.5.3.4.4. Home gardeners 5. Europe Horticulture Bioplastic Market Size and Forecast by Segmentation (by Value in USD Million) 2022-2029 5.1. Europe Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.2. Europe Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.3. Europe Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.4. Europe Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5. Europe Horticulture Bioplastic Market Size and Forecast, by Country (2022-2029) 5.5.1. United Kingdom 5.5.1.1. United Kingdom Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.1.2. United Kingdom Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.1.3. United Kingdom Horticulture Bioplastic Market Size and Forecast, by Application(2022-2029) 5.5.1.4. United Kingdom Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.2. France 5.5.2.1. France Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.2.2. France Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.2.3. France Horticulture Bioplastic Market Size and Forecast, by Application(2022-2029) 5.5.2.4. France Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.3. Germany 5.5.3.1. Germany Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.3.2. Germany Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.3.3. Germany Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.5.3.4. Germany Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.4. Italy 5.5.4.1. Italy Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.4.2. Italy Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.4.3. Italy Horticulture Bioplastic Market Size and Forecast, by Application(2022-2029) 5.5.4.4. Italy Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.5. Spain 5.5.5.1. Spain Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.5.2. Spain Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.5.3. Spain Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.5.5.4. Spain Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.6. Sweden 5.5.6.1. Sweden Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.6.2. Sweden Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.6.3. Sweden Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.5.6.4. Sweden Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.7. Austria 5.5.7.1. Austria Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.7.2. Austria Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.7.3. Austria Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.5.7.4. Austria Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 5.5.8. Rest of Europe 5.5.8.1. Rest of Europe Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 5.5.8.2. Rest of Europe Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 5.5.8.3. Rest of Europe Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 5.5.8.4. Rest of Europe Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6. Asia Pacific Horticulture Bioplastic Market Size and Forecast by Segmentation (by Value in USD Million) 2022-2029 6.1. Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.2. Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.3. Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.4. Asia Pacific Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5. Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Country (2022-2029) 6.5.1. China 6.5.1.1. China Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.1.2. China Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.1.3. China Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.1.4. China Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.2. S Korea 6.5.2.1. S Korea Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.2.2. S Korea Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.2.3. S Korea Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.2.4. S Korea Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.3. Japan 6.5.3.1. Japan Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.3.2. Japan Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.3.3. Japan Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.3.4. Japan Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.4. India 6.5.4.1. India Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.4.2. India Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.4.3. India Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.4.4. India Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.5. Australia 6.5.5.1. Australia Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.5.2. Australia Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.5.3. Australia Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.5.4. Australia Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.6. Indonesia 6.5.6.1. Indonesia Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.6.2. Indonesia Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.6.3. Indonesia Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.6.4. Indonesia Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.7. Malaysia 6.5.7.1. Malaysia Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.7.2. Malaysia Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.7.3. Malaysia Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.7.4. Malaysia Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.8. Vietnam 6.5.8.1. Vietnam Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.8.2. Vietnam Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.8.3. Vietnam Horticulture Bioplastic Market Size and Forecast, by Application(2022-2029) 6.5.8.4. Vietnam Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.9. Taiwan 6.5.9.1. Taiwan Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.9.2. Taiwan Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.9.3. Taiwan Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.9.4. Taiwan Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 6.5.10. Rest of Asia Pacific 6.5.10.1. Rest of Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 6.5.10.2. Rest of Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 6.5.10.3. Rest of Asia Pacific Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 6.5.10.4. Rest of Asia Pacific Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 7. Middle East and Africa Horticulture Bioplastic Market Size and Forecast by Segmentation (by Value in USD Million) 2022-2029 7.1. Middle East and Africa Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 7.2. Middle East and Africa Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 7.3. Middle East and Africa Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 7.4. Middle East and Africa Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 7.5. Middle East and Africa Horticulture Bioplastic Market Size and Forecast, by Country (2022-2029) 7.5.1. South Africa 7.5.1.1. South Africa Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 7.5.1.2. South Africa Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 7.5.1.3. South Africa Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 7.5.1.4. South Africa Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 7.5.2. GCC 7.5.2.1. GCC Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 7.5.2.2. GCC Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 7.5.2.3. GCC Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 7.5.2.4. GCC Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 7.5.3. Nigeria 7.5.3.1. Nigeria Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 7.5.3.2. Nigeria Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 7.5.3.3. Nigeria Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 7.5.3.4. Nigeria Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 7.5.4. Rest of ME&A 7.5.4.1. Rest of ME&A Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 7.5.4.2. Rest of ME&A Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 7.5.4.3. Rest of ME&A Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 7.5.4.4. Rest of ME&A Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 8. South America Horticulture Bioplastic Market Size and Forecast by Segmentation (by Value in USD Million) 2022-2029 8.1. South America Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 8.2. South America Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 8.3. South America Horticulture Bioplastic Market Size and Forecast, by Application(2022-2029) 8.4. South America Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 8.5. South America Horticulture Bioplastic Market Size and Forecast, by Country (2022-2029) 8.5.1. Brazil 8.5.1.1. Brazil Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 8.5.1.2. Brazil Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 8.5.1.3. Brazil Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 8.5.1.4. Brazil Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 8.5.2. Argentina 8.5.2.1. Argentina Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 8.5.2.2. Argentina Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 8.5.2.3. Argentina Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 8.5.2.4. Argentina Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 8.5.3. Rest Of South America 8.5.3.1. Rest Of South America Horticulture Bioplastic Market Size and Forecast, by Row Material (2022-2029) 8.5.3.2. Rest Of South America Horticulture Bioplastic Market Size and Forecast, by Type (2022-2029) 8.5.3.3. Rest Of South America Horticulture Bioplastic Market Size and Forecast, by Application (2022-2029) 8.5.3.4. Rest Of South America Horticulture Bioplastic Market Size and Forecast, by End-User (2022-2029) 9. Global Horticulture Bioplastic Market: Competitive Landscape 9.1. MMR Competition Matrix 9.2. Competitive Landscape 9.3. Key Players Benchmarking 9.3.1. Company Name 9.3.2. Business Segment 9.3.3. End-user Segment 9.3.4. Revenue (2022) 9.3.5. Company Locations 9.4. Leading Horticulture Bioplastic Market Companies, by market capitalization 9.5. Market Structure 9.5.1. Market Leaders 9.5.2. Market Followers 9.5.3. Emerging Players 9.6. Mergers and Acquisitions Details 10. Company Profile: Key Players 10.1. NatureWorks LLC (United States) 10.1.1. Company Overview 10.1.2. Business Portfolio 10.1.3. Financial Overview 10.1.4. SWOT Analysis 10.1.5. Strategic Analysis 10.1.6. Scale of Operation (small, medium, and large) 10.1.7. Details on Partnership 10.1.8. Regulatory Accreditations and Certifications Received by Them 10.1.9. Awards Received by the Firm 10.1.10. Recent Developments 10.2. Danimer Scientific (United States) 10.3. Yield10 Bioscience, Inc. (United States) 10.4. Green Dot Bioplastics (United States) 10.5. Eco-Products, Inc. (United States) 10.6. Fkur Plastics Corp. (United States) 10.7. BASF SE (Germany) 10.8. Novamont S.p.A (Italy) 10.9. Biome Bioplastics Ltd (United Kingdom) 10.10. Total Corbion PLA (Netherlands) 10.11. Arkema S.A. (France) 10.12. Bio-On S.p.A (Italy) 10.13. FKuR Kunststoff GmbH (Germany) 10.14. Biobag International AS (Norway) 10.15. Plaxica Limited (United Kingdom) 10.16. Bio-Fed (Germany) 10.17. API SpA (Italy) 10.18. Bio4Pack BV (Netherlands) 10.19. Tianan Biologic Materials Co., Ltd. (China) 10.20. Kaneka Corporation (Japan) 10.21. PTT MCC Biochem Company Limited (Thailand) 10.22. Plantic Technologies Limited (Australia) 10.23. Mitsubishi Chemical Corporation (Japan) 10.24. Cardia Bioplastics Limited (Australia) 10.25. Braskem S.A. (Brazil) 11. Key Findings 12. Industry Recommendations 13. Horticulture Bioplastic Market: Research Methodology 14. Terms and Glossary