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2030 年种子处理市场预测:按作物类型、剂型、功能、用途和地区进行的全球分析Seed Treatment Market Forecasts to 2030 - Global Analysis By Crop Type (2 Cereals & Grains, Oilseeds, Fruits & Vegetables and Other Crop Types), Type, Formulation, Function, Application and By Geography |
根据 Stratistics MRC 的数据,2023 年全球种子处理市场规模为 129 亿美元,预计在预测期内年复合成长率为 14.7%,到 2030 年将达到 337 亿美元。
旨在应用于种子或植物繁殖材料(例如块茎和球茎)表面以保持种子质量的生物和化学试剂称为种子处理。种子处理涉及多个阶段,包括包衣、引发、植物检疫处理、製粒和微生物接种。其他处理方法包括将种子暴露在阳光下或将它们浸泡在营养丰富的水中。
据印度政府称,2021-22年农业部门占GVA(附加价值毛额)的18.8%,并在过去两年实现了灵活增长。 2021-22 年增长率为 3.9%,2020-21 年增长率为 3.6%。
随着社会对创新农业方法的认识越来越深刻,农民正在从传统农业方法转向现代农业方法。由于资源供应有限,这种转变主要是为了追求更大的利润和利润而驱动的。作为实现利益最大化的一种方式,商业种子越来越受到农民的欢迎。温室栽培技术用于种植水果、蔬菜和观赏植物等高价值产品。在世界各地,这种趋势正在增长。
风暴、山体滑坡、洪水和其他极端天气事件等自然灾害会对新鲜水果和蔬菜的总产量产生负面影响,这可能会阻碍全球种子加工业的扩张。处理过的种子保质期短,导致种子发芽率增加,活力降低,尤其是大豆等种子。种子中的包被细菌将很难生存,并会缩短保质期。此外,不利的天气条件也阻碍了需求增长。
公共部门推动农业政策和提高农业盈利能力的努力正在推动市场扩张。在一些依赖农业的新兴经济体中,农业部门已经获得了大量补贴,正在吸引世界各国政府和法规机构的关注。与其他传统投入的叶面喷布相比,用合成或生物溶液处理种子是减少疾病和提高产量的有针对性的策略。
加工种子的公司必须遵守众多法规机构制定的法规。製造商在试图满足不同国家的不同要求时面临着巨大的挑战。当种子处理解决方案商业化时,在使用活性成分之前需要获得多个法规的批准。然而,在大多数开发中国家,种子处理产品的处理方式与传统农药相同。
COVID-19大流行的爆发给一些国家带来了非凡的挑战,也给许多部门带来了重大挑战。在最初的封锁期间,由于需求减少,特别是由于劳动力短缺而导致商业种植者的需求减少,种子加工业务遭受了暂时的挫折。此外,由于种子处理是农业的重要组成部分,因此生产设施在封锁期间仍保持运作。然而,疫情扰乱了该行业的供需链。
生物种子保护领域预计将迎来良好发展。这是由于越来越多地采用有机农业、对无农药残留农产品的高需求、对使用化学种子处理剂的环境和公共健康日益关注以及世界各地政府鼓励使用生物种子处理剂的运动所推动的。推动市场增长的主要要素。水稻、玉米、大豆和油菜籽是一些被广泛研究且种植频率更高的作物。
预计种子披衣行业在预测期内将以最快的年复合成长率增长,因为它通过改善种子的外观来提高种子的商业价值。由于谷物的渗透,该行业的种子披衣领域预计将成为利润最高的领域。种子病害的流行对作物发育和整体健康产生负面影响,增加了对保护种子免受土壤环境中害虫和其他危险微生物侵害的种子披衣材料的需求。
由于该地区农业活动的增加以及主要国家对作物的需求旺盛,预计亚太地区在预测期内将占据最大的市场份额。随着世界各地越来越多的人选择大米作为主要热量来源和主食,预计其受欢迎程度将会增加。这是由于对生物材料製成的农产品的需求不断增长,预计将在预测期内推动区域市场的扩张。
由于对天然和有机产品的需求不断增加,预计欧洲在预测期内的年复合成长率最高。公司通过创造满足广泛消费者需求的产品来响应这一市场需求。农业是欧洲农村最重要的趋势之一。由于对高价值作物的需求增加以及农民对治疗益处的认识不断增强等因素,市场存在扩张的机会。
According to Stratistics MRC, the Global Seed Treatment Market is accounted for $12.9 billion in 2023 and is expected to reach $33.7 billion by 2030 growing at a CAGR of 14.7% during the forecast period. Biological and chemical agents intended to be applied to seed surfaces or vegetative propagation materials, such as tubers and corms, in order to preserve the seed's quality are referred to as "seed treatments." It entails multiple stages of treatment, including coating, priming, phytosanitary treatment, pelleting, and microbial inoculation. Other treatment steps include exposing the seeds to the sun and submerging them in nutrient-rich water.
According to the Government of India, the agriculture sector accounts for 18.8 % of the Country's Gross Value Added (GVA) in 2021-22 and has experienced flexible growth in the past two years. It grew at 3.9% in 2021-22 and 3.6% in 2020-21.
Farmers are switching from traditional farming practises to modern farming practises as public awareness of innovative agricultural approaches grows. Due to the finite supply of resources, the shift is mostly caused by the desire for greater gains and profits. Commercial seeds are becoming more and more popular among farmers as a means of maximising the advantages they offer. Using the greenhouse farming technique, high-value products like fruits, vegetables, and ornamental plants are grown. The world over, this is an expanding tendency.
Natural catastrophes, such as storms, landslides, flooding, and other instances of extreme weather, may negatively affect the total output of raw fruits and vegetables, which may hinder the expansion of the global seed treatment industry. Due to the short shelf life of treated seeds, germination of seeds and vigour loss are increasing, notably in seeds like soybeans. The coated bacteria in seeds may struggle to survive, shortening their shelf life. Additionally, unfavourable weather conditions are preventing demand growth.
Public sector initiatives to promote agricultural policy and increase the profitability of agriculture are what are driving the market expansion. The agrarian sector, which is already substantially subsidised in some agri-dependent emerging nations, has attracted the attention of governments and regulatory agencies from all over the world. Treating the seeds with synthetic or biological solutions is a well-targeted strategy for minimising the illness and improving the yield, as contrasted to the foliar application of other conventional inputs.
Businesses that treat seeds must abide by the regulations set forth by numerous regulatory bodies. When attempting to comply with these standards' various requirements in various countries, manufacturers face a tremendous difficulty. Before using the active components in the commercialization of the solutions created for seed treatment, several regulatory clearances are required. But in the majority of developing nations, products for treating seeds are grouped with traditional agrochemicals.
The COVID-19 pandemic outbreak brought extraordinary difficulties for several nations and significant issues for a number of sectors. During the initial lockdown, the seed treatment business had temporary setbacks, particularly as a result of decreased demand from commercial growers as a result of labour shortages. Additionally, seed treatment is a crucial component of agriculture, thus the production facilities kept running throughout the lockdown. Nevertheless, the pandemic caused supply and demand chain disruptions in the sector.
The biological seed protection segment is estimated to have a lucrative growth. Growing organic farming adoption, the high demand for chemical residue-free agricultural products, growing environmental and public health concerns about the use of chemical seed treatment, and global government campaigns to encourage the use of biological seed treatment are the main factors driving the growth of this market. Rice, corn, soybeans, and canola are some of the widely studied crops that are being grown more and more frequently.
The seed coating segment is anticipated to witness the fastest CAGR growth during the forecast period, owing to increasing the commercial value of seeds by improving their appearance. The industry's seed coating division is anticipated to be the most profitable one due to the widespread use of grains. The prevalence of seed illnesses, which negatively impact crop development and health overall, is driving up demand for seed coating materials, which protect seeds from pests and other dangerous microbes in the soil environment.
Asia Pacific is projected to hold the largest market share during the forecast period owing to increased agricultural activities in the region coupled with high crop demand from the major countries. As more individuals pick rice as their main source of calories and staple meal on a global scale, its popularity is predicted to expand. This is caused by the rising demand for agricultural products made from biomaterials, which is expected to promote regional market expansion during the projection period.
Europe is projected to have the highest CAGR over the forecast period, owing to demand for natural and organic goods is on the rise. Companies are responding to this market demand by creating items that satisfy the needs of a wide range of consumers. Agriculture is one of the most important trends in rural Europe. Due to elements including the rising demand for high-value crops and farmers' increased awareness of the benefits of treatment options, there are opportunities for market expansion.
Some of the key players profiled in the Seed Treatment Market include: Corteva Agriscience, Bayer AG, FMC Corporation, BASF SE, Sumitomo Chemical Co. Ltd., Syngenta AG, Monsanto Company, Croda Int. PLC, UPL ltd., Germain's Seed Technology, Inc., NuFarm Ltd., Associated British Foods Plc, Novozymes AS, Roquette Freres SA, Corteva Inc., BioWorks Inc. and Humintech GmbH.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.