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植物育種・CRISPR植物の世界市場-2023-2030Global Plant Breeding & CRISPR Plant Market - 2023-2030 |
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植物育種・CRISPR植物の世界市場-2023-2030 |
出版日: 2022年12月26日
発行: DataM Intelligence
ページ情報: 英文 116 Pages
納期: 約2営業日
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植物育種・CRISPR植物市場は、予測期間(2023年~2030年)にCAGR10.87%で成長すると予測されています。
植物育種は、農家が新しい作物品種を作ったり、既存の作物を強化したり、収量を増やしたりするために用いられる技術で、目的の遺伝子や形質を得るために分子ツールや保存修復ツールを使って植物ゲノムを改変します。植物育種では、DNAを標的として、あるいは目的のDNAに変換するために部位特異的ヌクレアーゼ法が用いられています。原核生物由来のCRISPR-Cas遺伝子は、植物育種において、植物ゲノムを改変して、優れた有利な形質を持つ生殖質を作り出すために用いられます。植物育種やCRISPR技術によって作られた作物は、高収量、従来の作物より優れた品質、病害抵抗性、除草剤耐性、気候耐性などの形質を持つことが多いです。さらに、植物育種技術を用いて開発された作物は、高収量、高品質、耐病性など、さまざまな利点を備えています。さらに、持続可能な作物生産の最良の選択肢は、植物育種とCRISPR技術です。
人口増加は、植物育種・CRISPR植物の主な駆動要因の1つです。人口の増加に伴い、食料の需要が高まり、養うべき人の数が増えているため、新しい植物育種技術のニーズが高まっています。世界の人口増加に伴う食糧不足の問題を解消するため、農家や人々の間で植物の改良品種の需要が高まっています。植物育種・CRISPR植物が、より質の高い飼料で作物の生産量を増やす唯一の方法です。植物育種は、作物の生産を強化し、人間や動物が消費する作物の栄養価を向上させるために行われます。育種とは、DNAを極めて完璧に狙い撃ちし、形質転換させることで、植物に望ましい形質を導入する技術です。
一方、植物育種およびCRISPR植物の市場は、植物の生産性を高めるためにハイスループットな配列決定システムを使用するなど、植物バイオテクノロジーの進歩が続いていることから拡大しています。
また、世界の消費者のライフスタイルの変化に伴い、より高収量・高品質な作物への需要が高まっていることも、市場拡大の要因となっています。
しかし、植物育種用作物には、人間の健康を害する可能性のある不要な毒素が存在するという認識が高まっていることが、植物育種およびCRISPR植物の成長を制限する要因の一つとなっています。
世界の植物育種家や植物遺伝学者の大多数は穀物の育種に特化しているため、予想される期間において、穀物・穀類セグメントが圧倒的な市場シェアを占めました。穀物および穀類作物の世界市場は、世界中の人々の耕作量の増加や食生活の変化により急速に成長しています。また、食用穀物に対するニーズが高まっており、より優れた作物収量を実現するために農業界への圧力が高まっています。育種技術は、自家受粉や他家受粉といった作物の生態や、特定の作物に対する遺伝子研究の発展段階、育種が行われる国によって選択されます。
一方、世界の植物育種・CRISPR植物市場において、最も成長が著しいのは遺伝子工学です。遺伝子工学のプロセスは、生物の遺伝子構造を変更することを含みます。これは、望ましくない遺伝子を除去したり、新しい形質を追加したりするために行われます。遺伝子工学では、細胞に新しいDNAを導入するためにウイルスが最も頻繁に使用されます。CRISPR/Cas技術として知られる最近の遺伝子工学の方法は、CRISPR関連(Cas)タンパク質を使用するものです。これらのタンパク質は、ウイルスに対するバクテリアの免疫力をサポートします。研究開発者は、CRISPR/Casシステムを用いて、植物、動物、ヒトの細胞などの生物の遺伝子を編集する方法を開発しています。
植物育種とCRISPR植物の市場は、米国のトウモロコシと大豆の産業需要の増加により、北米で大きく拡大すると予想されます。さらに、同地域のバイオテクノロジーによる植物育種とCRISPR植物の市場は、遺伝学の採用率の上昇により、今後数年間で拡大すると予想されます。同市場の主要プレイヤーは、より良い収量を得るために新技術やプロセスを導入しています。
一方、予測期間を通じて、アジア太平洋地域は植物育種およびCRISPR植物の市場で圧倒的なリードを保ち、世界売上の34%近くを占めると予想されます。この地域の世界市場における主な成長要因は、商業用種子に対する需要の急拡大と民間企業による投資です。また、植物育種技術の普及に伴い、CRISPR植物市場における優位性も高まっていくと予想されます。インド、中国、インドネシアなどの発展途上国における高品質な畑作物の需要増が、APAC地域の成長の主な原動力となっています。
Plant Breeding & CRISPR Plant Market was valued at USD XX million in 2022. It is forecasted to reach USD XX million by 2030, growing at a CAGR of 10.87% during the forecast period (2023-2030).
Plant breeding is a technique used by farmers to create new crop varieties, enhance existing ones, and boost yields by modifying the plant genome using molecular or conservatory tools to obtain the desired gene or trait. The site-directed nuclease method is used in plant breeding to target or transform the DNA into the desired DNA. A CRISPR-Cas gene derived from a prokaryote is used in plant breeding to alter the plant genome to produce germplasm with superior and advantageous traits. Crops created through plant breeding or CRISPR technology often have traits like high yield, superior quality to traditional crops, disease resistance, herbicide tolerance, climatic tolerance, and others. Additionally, crops are developed using plant breeding techniques to provide a range of advantages, including higher yield, better quality, disease resistance, and others. Additionally, the best sustainable crop production option is plant breeding and CRISPR technology.
The growing population is one of the main driving factors for plant breeding & CRISPR plants. With the growing population, the demand for food is increasing, and there are a greater number of people to feed, which is increasing the need for new plant breeding technology. The demand for improved plant varieties is increasing among farmers and people to eliminate the food scarcity problem with the growing population globally. Plant breeding & CRISPR plants are the only way to increase crop production with a better-quality feed. Plant breeding is used to enhance crop production and improve crops' nutritional quality for human or animal consumption. Breeding is a technique to change the traits of plants by introducing the desired traits in the plants by targeting and transforming the DNA with extreme perfection.
On the other hand, the market for plant breeding and CRISPR plants is expanding due to ongoing advances in plant biotechnology, which include using a high-throughput sequencing system to increase plant productivity.
Moreover, the growing demand for higher-yielding, higher-quality crops is being caused by shifting consumer lifestyles around the world is driving the market expansion.
However, the increased awareness of the presence of unwanted toxins in plant-breeding crops that may be dangerous to human health is one of the factors limiting the growth of plant breeding and CRISPR plants.
Since the vast majority of plant breeders and plant geneticists worldwide specialize in breeding cereals, the cereals and grains segment held a dominant market share over the anticipated period. The global market for grain and cereal crops has grown quickly due to rising cultivation and shifting dietary habits of people all over the world. In addition, there is a rising need for food grains, increasing pressure on the agricultural industry to produce better crop yields. The breeding techniques are selected based on the biology of the crop, such as self-pollinating or cross-pollinating, the stage of development of genetic research for a specific crop, and the nation where the breeding is conducted.
On the other hand, genetic engineering is the fastest-growing segment in the global plant breeding & CRISPR market. The process of genetic engineering involves changing an organism's genetic makeup. This could be done to eliminate undesirable genes or add new traits. Viruses are used most frequently in genetic engineering to introduce new DNA into cells. A more recent method of genetic engineering known as CRISPR/Cas technology uses CRISPR-associated (Cas) proteins. These proteins support bacterial immunity to viruses. Researchers have developed methods for editing genes in organisms like plants, animals, and human cells using the CRISPR/Cas system.
The market for plant breeding and CRISPR plants is expected to expand significantly in North America due to the US's rising industrial demand for corn and soybeans. Additionally, it is anticipated that the region's market for biotechnological plant breeding and CRISPR plants will expand in the coming years due to the rising adoption rate for genetics. Key players in the market are introducing new technologies and processes for better yielding.
On the other hand, throughout the forecast period, Asia-Pacific is anticipated to hold a commanding lead in the market for plant breeding and CRISPR plants, accounting for close to 34% of global sales. The region's main source of growth on the global market is the rapidly expanding demand for commercial seeds and investments made by the private sector. Furthermore, it is anticipated that as plant breeding technology grows in popularity, so will its dominance in the market for CRISPR plants. The increased demand for high-quality field crops in developing nations like India, China, and Indonesia is the main driver of APAC's region's growth.
There are several established participants in the industry and local manufacturers; hence, the market is fragmented. Some major key players are Bayer AG, BASF, Syngenta Crop Protection AG, Limagrain, Bioceres Crop Solutions, UPL, Yield10 Bioscience, KWS SAAT SE & Co. KGaA, DLF Seeds Ltd. and J.R. Simplot Company. To increase their profits, the top companies in the global market for CRISPR plants and plant breeding are introducing cutting-edge technologies and techniques like conventional and genetic engineering. For instance, In August 2022, Bayer increased its investment by acquiring the majority of CoverCress Inc., a producer of low-carbon sustainable oilseeds. By utilizing the experience of current investors Bunge and Chevron/farmers to potentially commercialize oilseeds into renewable fuels and animal feed that deliver ecosystem benefits through cover crops, Bayer's existing investment in CoverCress Inc., this investment fulfilled Bayer's sustainability commitments can help reduce agricultural carbon emissions and reduce dependence on nitrogen fertilizers. This has aided the company's business expansion.
The COVID-19 pandemic hurt the production of many products, harming the world economy. The COVID-19 pandemic's restrictions on logistics and transportation had a detrimental effect on the plant breeding industry. Lockdowns that lasted for an extended period, mostly in Latin American and Asian nations, disrupted the supply and demand chain and reduced the availability of plant breeding products. Farmers suffered severe losses during the height of the COVID-19 outbreak as crop production significantly decreased as a result of travel restrictions. As a result, farmers are increasingly looking for new crop varieties with higher yields. The majority of farmers are also learning about the advantages provided by the crops developed through plant breeding. The government's efforts to encourage the use of plant breeding techniques have also significantly increased. Governments in developing nations have set up seed banks at the national and village levels to store seeds that have been correctly treated with seed treatment chemicals to prevent seed rotting.
The global plant breeding & CRISPR plant market report would provide an access to approximately 61 market data tables, 55 figures and 116 pages.