市場調查報告書
商品編碼
1271334
農業生物技術市場 - 增長、未來展望、競爭分析,2023-2031Agricultural Biotechnology Market - Growth, Future Prospects and Competitive Analysis, 2023 - 2031 |
從 2023 年到 2031 年,農業生物技術市場預計將以 10.7% 的複合年增長率增長。 農業生物技術是利用科學工具和技術對植物、動物和微生物進行改造,以提高產量、質量和抗病蟲害能力。 近年來,由於需要可持續農業實踐和應對全球糧食安全挑戰,這項技術變得越來越重要。 生物技術的進步使生產出抗病蟲害、高產、適應不同氣候和土壤條件的作物成為可能。 基因改造是農業生物技術中的關鍵技術之一,它是指在植物的DNA中插入或刪除基因以獲得特定性狀。 農業生物技術的另一個重要方面是“合成生物學”,它使用基因工程等技術來設計和構建新的生物系統。 該技術可用於培育具有改良性狀的動植物新品種,並開發防治病蟲害的新工具。 全球農業生物技術市場將在 2023 年至 2031 年的預測期內增長,受可持續農業實踐的需求和應對全球糧食安全挑戰的創新解決方案需求的推動,預計將以 10.7% 的複合年增長率增長。 然而,也有人擔心基因工程和其他需要仔細考慮和監管的生物技術的潛在風險和倫理影響。
農業生物技術市場的主要驅動力之一是對糧食安全的需求不斷增長,尤其是在發展中國家。 隨著世界人口的增長,需要生產更多的食物來養活每個人。 生物技術可以提高作物產量、質量以及對病蟲害的抵抗力。 例如,已經開發出抗旱的轉基因作物,幫助乾旱地區的農民用更少的水種植更多的作物。 這可能對發展中國家的糧食安全產生重大影響。 根據聯合國糧食及農業組織的一份報告,到 2050 年全球糧食產量需要增加 70% 才能滿足不斷增長的人口的需求。 生物技術可以在實現這一目標方面發揮重要作用。
農業生物技術市場的另一個驅動因素是對可持續農業實踐的需求。 傳統的耕作方法往往依賴化肥和殺蟲劑,這會對環境產生負面影響。 生物技術可以通過提高作物對病蟲害的抵抗力來減少這些化學品的使用。 結果是生態友好和更可持續的耕作方法。 根據美國國家科學院、工程院和醫學院的一份報告,生物技術可以通過減少化學投入和提高養分利用效率來幫助減少農業對環境的影響。
生物技術的進步正在開發可用於提高作物產量、質量和抗病蟲害能力的新工具和技術。 例如,CRISPR-Cas9技術的使用,讓動植物基因編輯變得更簡單、更準確。 這導致開發出具有改進特性的新作物品種,例如提高對害蟲的抵抗力。 根據經濟合作與發展組織的一份報告,新的生物技術發展有望在未來幾年顯著提高農業生產力和效率。
農業生物技術市場的主要製約因素之一是公眾對轉基因作物和其他生物技術產品的看法。 人們擔心基因工程和其他生物技術的潛在風險和倫理影響,這可能會導致公眾反對它們的使用。 這可能會造成監管障礙,並使新產品更難推向市場。 例如,歐洲對轉基因生物 (GMO) 有嚴格的監管框架,許多消費者對其安全性持懷疑態度。 因此,轉基因作物的商業化在許多歐洲國家沒有取得進展。 此外,在基因和其他生物技術產品的專利申請方面存在爭議,這可能會引發對遺傳資源所有權和控制權的擔憂。 生物技術具有徹底改變農業的潛力,但以負責任和可持續的方式使用它很重要。 需要一個監管框架來解決潛在的風險和道德問題,並且在新生物技術產品的開發和商業化過程中必須仔細考慮公眾的看法。
農業生物技術市場是一個新興行業,它使用基因工程技術和生物技術工具來提高農業生產力和效率。 市場可以根據所涉及的生物體類型進行細分,包括植物、動物和微生物。 植物佔農業生物技術市場的最大份額,2022年銷售額份額約為65%。 這是由於對高產作物、提高抗病蟲害能力以及能夠承受環境壓力的作物的需求不斷增長。 在植物生物技術領域,轉基因 (GM) 作物產生的收入最高,預計在預測期內將繼續主導市場。 轉基因作物被設計成具有提高產量、抗病蟲害以及對環境壓力耐受性的特性。 全球範圍內越來越多地採用轉基因作物,預計將改善糧食安全並減少有害農藥的使用,尤其是在發展中國家。
農業生物技術市場可細分為各種應用,例如轉基因作物和動物、抗生素開發、營養保健品、花卉栽培和生物燃料。 轉基因作物和動物是轉基因生物 (GMO),它們經過改造以使用生物技術工具增強其特性。 轉基因作物旨在抵抗病蟲害,抵禦環境壓力,提高產量和質量。 另一方面,轉基因動物旨在改善健康、生產力和效率。 預計在預測期內,轉基因作物和動物部分的複合年增長率將達到 8% 左右。 在這一細分市場中,轉基因作物產生了最高的收入,預計在預測期內將繼續主導市場。
到 2022 年,北美將佔據最大份額,其次是歐洲和亞太地區。 由於轉基因作物的高采用率、政府對生物技術研發的支持以及大型生物技術公司的存在,北美約佔農業生物技術收入份額的 41%。 由於人口和糧食需求的增加、耕地面積的減少以及政府對生物技術研發的支持,亞太地區是農業生物技術增長最快的市場。 由於對高產和優質作物的需求增加、動物生產力和健康的提高以及可持續農業的需求增加,預計所有地區的農業生物技術市場都將出現顯著增長。 此外,由於在農業中越來越多地採用生物技術,預計亞太和拉丁美洲等新興市場將出現顯著增長。
農業生物技術市場競爭激烈,眾多參與者進入該市場。 市場上的主要參與者包括 BASF SE、Bayer AG、DowDuPont Inc.、Monsanto Company、Syngenta AG 和其他著名參與者。 這些公司在研發方面投入巨資,開發創新的生物技術產品,幫助提高作物產量、動物健康和農業的整體可持續性。
Agricultural Biotechnology Market Is Projected to Expand At A CAGR Of 10.7% Between 2023 And 2031. Agricultural biotechnology refers to the use of scientific tools and techniques to modify plants, animals, and microorganisms to improve their yield, quality, and resistance to pests and diseases. This technology has become increasingly important in recent years due to the need for sustainable agricultural practices and the need to address global food security challenges. Advances in biotechnology have made it possible to produce crops that are more resistant to pests and diseases, have higher yields, and are better suited to different climates and soil conditions. Genetic modification is one of the key techniques used in agricultural biotechnology, and it involves the insertion or deletion of genes in a plant's DNA to achieve specific traits. Another important aspect of agricultural biotechnology is synthetic biology, which involves the design and construction of new biological systems using genetic engineering and other techniques. This technology can be used to create new plant and animal varieties with improved traits, as well as to develop new tools for pest and disease control. The global agricultural biotechnology market is projected to grow at a CAGR of 10.7% during the forecast period of 2023 to 2031, driven by the need for sustainable agriculture practices and the demand for innovative solutions to address global food security challenges. However, there are also concerns about the potential risks and ethical implications of genetic modification and other biotechnology techniques, which need to be carefully considered and regulated.
One of the main drivers of the agricultural biotechnology market is the growing demand for food security, especially in developing countries. With a rapidly increasing global population, there is a need to produce more food to feed everyone. Biotechnology can help improve crop yields and quality, as well as increase resistance to pests and diseases. For example, genetically modified crops have been developed to withstand drought, which can help farmers in arid regions grow more crops with less water. This can have a significant impact on food security in developing countries. According to a report by the Food and Agriculture Organization of the United Nations, global food production will need to increase by 70% by 2050 to meet the needs of a growing population. Biotechnology can play a crucial role in achieving this goal.
Another driver of the agricultural biotechnology market is the need for sustainable agricultural practices. Conventional farming practices often rely on chemical fertilizers and pesticides, which can have negative environmental impacts. Biotechnology can help reduce the use of these chemicals by improving crop resistance to pests and diseases. This can lead to more sustainable farming practices that are better for the environment. According to a report by the National Academies of Sciences, Engineering, and Medicine, biotechnology can help reduce the environmental impact of agriculture by reducing the use of chemical inputs and improving nutrient use efficiency.
Advances in biotechnology have led to the development of new tools and techniques that can be used to improve crop yields, quality, and resistance to pests and diseases. For example, the use of CRISPR-Cas9 technology has made it easier and more precise to edit the genes of plants and animals. This has led to the development of new crop varieties with improved traits, such as increased resistance to pests and diseases. According to a report by the Organization for Economic Cooperation and Development, the development of new biotechnologies is expected to lead to significant increases in agricultural productivity and efficiency in the coming years.
One of the main restraints of the agricultural biotechnology market is the public perception of genetically modified crops and other biotechnology products. There are concerns about the potential risks and ethical implications of genetic modification and other biotechnology techniques, which can lead to public opposition to their use. This can create regulatory hurdles and make it more difficult to bring new products to market. For example, in Europe, there is a strict regulatory framework for genetically modified organisms (GMOs), and many consumers are skeptical of their safety. This has led to a lack of commercialization of genetically modified crops in many European countries. Additionally, there have been controversies surrounding the patenting of genes and other biotechnology products, which can lead to concerns about the ownership and control of genetic resources. While biotechnology has the potential to revolutionize agriculture, it is important to ensure that it is used responsibly and sustainably. Regulatory frameworks need to be in place to address the potential risks and ethical concerns, and public perception needs to be carefully considered in the development and commercialization of new biotechnology products.
The agricultural biotechnology market is a rapidly growing industry that involves the use of genetic engineering techniques and biotechnology tools to improve the productivity and efficiency of agriculture. The market can be segmented based on the type of organism involved, which includes plants, animals, and microorganisms. Plants account for the largest share of the agricultural biotechnology market, with a revenue percentage of around 65% in 2022. This is due to the increasing demand for high-yield crops, better resistance to pests and diseases, and the need for crops that can withstand environmental stress. Within the plant biotechnology segment, genetically modified (GM) crops hold the highest revenue and are expected to continue to dominate the market during the forecast period. GM crops have been engineered to possess traits that improve their yield, pest, and disease resistance and tolerance to environmental stress. The adoption of GM crops has been increasing globally, particularly in developing countries, where they have been shown to improve food security and reduce the use of harmful pesticides.
The agricultural biotechnology market can be segmented into various applications, including transgenic crops and animals, antibiotic development, nutritional supplements, flower culturing, and biofuels. Transgenic crops and animals are genetically modified organisms (GMOs) that have been altered using biotechnology tools to enhance their characteristics. Transgenic crops are designed to resist pests and diseases, tolerate environmental stress, and improve yield and quality. Transgenic animals, on the other hand, are designed to improve their health, productivity, and efficiency. The transgenic crops and animals segment is expected to grow at a CAGR of around 8% during the forecast period. Within this segment, transgenic crops hold the highest revenue and are expected to continue to dominate the market during the forecast period.
North America held the largest share in 2022, followed by Europe and Asia Pacific. North America held a revenue share of around 41% for agricultural biotechnology due to the high adoption rate of genetically modified crops, government support for biotechnology research and development, and the presence of major biotechnology companies. Asia Pacific is the fastest-growing market for agricultural biotechnology due to the increasing population and demand for food, declining arable land, and government support for biotechnology research and development. The agricultural biotechnology market is expected to witness significant growth in all regions due to the increasing demand for high-yield and high-quality crops, better animal productivity and health, and sustainable agriculture practices. The market is also expected to witness significant growth in developing regions such as Asia Pacific and Latin America due to the increasing adoption of biotechnology in agriculture.
The agricultural biotechnology market is highly competitive, with numerous players operating in the market. Some of the major players in the market include BASF SE, Bayer AG, DowDuPont Inc., Monsanto Company, Syngenta AG, and Other notable players. These companies are investing heavily in research and development to develop innovative biotechnology products that can help improve crop yield, animal health, and overall agricultural sustainability.
In recent years, there has been a trend toward consolidation in the agricultural biotechnology market. For example, in 2021, Bayer AG announced the launch of its new herbicide-tolerant soybean technology, XtendFlex®, which is designed to help farmers control weeds more effectively and improve crop yield. The technology allows farmers to use three different herbicides to control weeds, including dicamba, glyphosate, and glufosinate. In 2021, BASF SE announced the launch of its new seed treatment, Poncho®/VOTiVO®, which is designed to protect corn seeds against a range of pests and diseases. The product offers long-lasting protection and can help improve crop yield and quality. Moreover, there has been a growing trend towards sustainable agriculture practices, with companies developing biotechnology products that can help reduce the environmental impact of agriculture. For instance, Monsanto (now owned by Bayer) has developed biotech crops that require fewer pesticides and herbicides, which can help reduce the environmental impact of agriculture.
The agricultural biotechnology market is expected to continue to witness significant growth in the coming years, with major players investing heavily in research and development to develop innovative biotechnology products that can help improve crop yield, animal health, and overall agricultural sustainability. The market is also expected to witness increased consolidation, partnerships, and collaborations as companies seek to drive growth and remain competitive in the market.
This study report represents analysis of each segment from 2021 to 2031 considering 2022 as the base year. Compounded Annual Growth Rate (CAGR) for each of the respective segments estimated for the forecast period of 2022 to 2031.
The current report comprises of quantitative market estimations for each micro market for every geographical region and qualitative market analysis such as micro and macro environment analysis, market trends, competitive intelligence, segment analysis, porters five force model, top winning strategies, top investment markets, emerging trends and technological analysis, case studies, strategic conclusions and recommendations and other key market insights.
The complete research study was conducted in three phases, namely: secondary research, primary research, and expert panel review. key data point that enables the estimation of Agricultural Biotechnology market are as follows:
Micro and macro environment factors that are currently influencing the Agricultural Biotechnology market and their expected impact during the forecast period.
Market forecast was performed through proprietary software that analyzes various qualitative and quantitative factors. Growth rate and CAGR were estimated through intensive secondary and primary research. Data triangulation across various data points provides accuracy across various analyzed market segments in the report. Application of both top down and bottom-up approach for validation of market estimation assures logical, methodical and mathematical consistency of the quantitative data.