菌根真菌生物肥料市場(chǎng):按類型、型態(tài)、應(yīng)用分類 - 全球預(yù)測(cè) 2024-2030_第1頁(yè)
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預(yù)計(jì)2023年菌根生物肥料市場(chǎng)規(guī)模為6.7196億美元,2024年將達(dá)7.6059億美元,2030年將達(dá)16.453億美元,復(fù)合年增長(zhǎng)率為13.64%。基于菌根真菌的生物肥料是型態(tài)永續(xù)農(nóng)業(yè)解決方案,它利用了土壤真菌(稱為菌根)和植物根之間的共生關(guān)係。透過(guò)擴(kuò)大植物的根系,菌根真菌增加了必需營(yíng)養(yǎng)素的吸收,包括磷和氮,從而改善植物的生長(zhǎng)和生產(chǎn)力。菌根真菌提高植物的水分利用效率并增強(qiáng)其抵抗干旱的能力。農(nóng)業(yè)意識(shí)的提高、對(duì)永續(xù)性的需求不斷增加以及與糧食安全相關(guān)的問(wèn)題正在加速采用基于菌根真菌的生物肥料。對(duì)化學(xué)肥料長(zhǎng)期負(fù)面影響的了解導(dǎo)致生物肥料的使用增加。然而,某些地區(qū)的高生產(chǎn)成本和低認(rèn)知度可能會(huì)阻礙普及。生物技術(shù)的持續(xù)進(jìn)步和政府支持的增加無(wú)疑將增強(qiáng)這種擴(kuò)張,為農(nóng)業(yè)提供產(chǎn)量且環(huán)保的解決方案。市場(chǎng)相關(guān)人員正在努力推出新的解決方案,以進(jìn)一步提高土壤肥力、植物養(yǎng)分利用率和農(nóng)業(yè)生產(chǎn)力。主要市場(chǎng)統(tǒng)計(jì)基準(zhǔn)年[2023]67196萬(wàn)美元預(yù)測(cè)年份[2024]76059萬(wàn)美元預(yù)測(cè)年份[2030]16.453億美元復(fù)合年增長(zhǎng)率(%)13.64%內(nèi)生菌根為更多植物提供營(yíng)養(yǎng)的潛力外生菌根的特征是形成包裹植物根尖的鞘(外套膜)和延伸至根皮層但不穿透細(xì)胞壁的菌絲網(wǎng)絡(luò)(心線)。這種生物肥料主要與針葉樹(shù)等木本植物和松樹(shù)和橡樹(shù)等落葉樹(shù)有關(guān)。使用外生菌根真菌作為生物肥料可以促進(jìn)植物生長(zhǎng)必需的兩種營(yíng)養(yǎng)素磷和氮的吸收能力。此外,透過(guò)讓植物獲得土壤中的水和養(yǎng)分,它們可以增強(qiáng)對(duì)疾病和惡劣環(huán)境條件的抵抗力。然而,與內(nèi)生菌根相比,外生菌根可以結(jié)合的植物類型相對(duì)有限。與外生菌根真菌不同,內(nèi)生菌根真菌(也稱為叢枝菌根真菌)穿透細(xì)胞壁,在植物和土壤之間建立高效的養(yǎng)分交換途徑。最近,它已成為一種透過(guò)增強(qiáng)養(yǎng)分循環(huán)和結(jié)構(gòu)來(lái)改善土壤豐富度的有趣解決方案。它主要幫助吸收磷,但也會(huì)影響其他微量元素如鋅和銅的吸收。型態(tài):優(yōu)選液體肥料,因?yàn)槠湮漳芰?qiáng)。液體肥料易于施用,因?yàn)樗鼈兛梢耘c水混合,直接施于植物根部,或散布在土壤表面。此外,由于它是液體,因此可以快速吸收到土壤中,并具有快速開(kāi)始與植物根部共存的優(yōu)點(diǎn)。這些肥料通常是首選,因?yàn)樗鼈円子谔幚砗蛢?chǔ)存,污染風(fēng)險(xiǎn)低,并且可以在滴灌系統(tǒng)中有效利用。然而,它們可能需要特殊處理,因?yàn)樗鼈儗?duì)極熱或極冷敏感。此外,手動(dòng)使用有些繁瑣,因?yàn)閯┝勘仨毦_?;诠虘B(tài)菌根真菌的生物肥料通常為顆?;蚍勰?,專為長(zhǎng)期肥料計(jì)劃而設(shè)計(jì)。它因其較長(zhǎng)的保質(zhì)期和在各種環(huán)境條件下的穩(wěn)定性而受到重視。這些肥料通常在種植前與土壤或堆肥混合,有助于在根部周圍建立強(qiáng)大的真菌網(wǎng)絡(luò)。在應(yīng)用農(nóng)業(yè)中使用基于菌根真菌的生物肥料來(lái)提高作物產(chǎn)量和質(zhì)量在農(nóng)業(yè)中,基于菌根真菌的生物肥料可以為促進(jìn)永續(xù)農(nóng)業(yè)做出重大貢獻(xiàn)。事實(shí)證明,這些生物肥料可以透過(guò)增加植物對(duì)養(yǎng)分的吸收來(lái)最大限度地減少對(duì)化學(xué)肥料的依賴。菌根真菌和植物根部形成共生關(guān)係,使植物更有效地利用土壤中存在的必需養(yǎng)分和水。結(jié)果,農(nóng)產(chǎn)品產(chǎn)量和品質(zhì)提高。此外,使用基于菌根真菌的生物肥料還可以透過(guò)改善土壤結(jié)構(gòu)和肥力來(lái)促進(jìn)土壤健康。它還可以提高植物對(duì)各種土壤疾病和壓力條件的抵抗力。因此,其使用已成為全球永續(xù)有機(jī)農(nóng)業(yè)的重要組成部分。林業(yè)、園林綠化和園藝是這些生物肥料的主要使用領(lǐng)域。在林業(yè)中,基于菌根真菌的生物肥料可用于造林和重新造林工作,因?yàn)樗鼈兺高^(guò)促進(jìn)根部發(fā)育和養(yǎng)分吸收來(lái)提高幼苗的存活率。同樣,在園林綠化和園藝領(lǐng)域,這些生物肥料透過(guò)允許更好的養(yǎng)分吸收來(lái)促進(jìn)植物生長(zhǎng)和維護(hù),從而改善植物的美觀和健康。這些生物肥料在生物修復(fù)過(guò)程中也發(fā)揮著重要作用,生物修復(fù)是一種處理和再生受污染土壤的技術(shù)。生物肥料有助于穩(wěn)定土壤并去除污染物,使植物生長(zhǎng)和居住安全。分銷管道:透過(guò)線上管道擴(kuò)大菌根真菌生物肥料的可用性和可及性線上分銷管道對(duì)于分銷基于菌根真菌的生物肥料變得越來(lái)越重要。與傳統(tǒng)途徑相比,透過(guò)數(shù)位平臺(tái),製造商和分銷商可以以更少的限制迎合全球受眾。各種農(nóng)業(yè)電子商務(wù)平臺(tái)都有來(lái)自不同製造商的菌根真菌生物肥料,允許用戶根據(jù)價(jià)格、評(píng)論和規(guī)格來(lái)比較產(chǎn)品。此外,許多製造商和分銷商維護(hù)自己的網(wǎng)站,不僅銷售他們的產(chǎn)品,還提供有關(guān)其產(chǎn)品的大量信息,包括其優(yōu)點(diǎn)、應(yīng)用說(shuō)明和支持效用的研究。線下分銷管道在菌根真菌生物肥料的分銷中仍發(fā)揮重要作用。通常,這涉及透過(guò)農(nóng)業(yè)供應(yīng)商店、園藝中心和合作社等實(shí)體商店銷售生物肥料的過(guò)程。製造商通常依賴批發(fā)商和分銷商,他們負(fù)責(zé)儲(chǔ)存、運(yùn)輸和向零售商銷售生物肥料。製造商還可以采取直接行銷策略,例如參加農(nóng)業(yè)展覽會(huì)和展覽會(huì)以及直接與農(nóng)場(chǎng)和農(nóng)業(yè)企業(yè)接觸。在數(shù)位素養(yǎng)仍然較低的農(nóng)村地區(qū)和農(nóng)場(chǎng),直接店內(nèi)購(gòu)買(mǎi)和個(gè)人推薦仍然很重要。在這里,熟悉度、直接產(chǎn)品測(cè)試和隨時(shí)可用是有利于菌根真菌生物肥料線下銷售的關(guān)鍵因素。區(qū)域洞察由于技術(shù)進(jìn)步和人們對(duì)永續(xù)農(nóng)業(yè)重要性的認(rèn)識(shí)不斷提高,在美洲,基于菌根真菌的生物肥料的使用顯著增加。美國(guó)公司占生物肥料生產(chǎn)的大部分,并對(duì)全球供應(yīng)做出了重大貢獻(xiàn)。儘管生產(chǎn)能力很高,但從加拿大進(jìn)口,特別是根內(nèi)球囊霉屬物種,進(jìn)口量很高,顯示該地區(qū)需求強(qiáng)勁。亞洲是菌根真菌生物肥料成長(zhǎng)最快的地區(qū),其中中國(guó)和印度是主要生產(chǎn)國(guó)。政府減少化肥使用的激勵(lì)措施、人口成長(zhǎng)以及提高農(nóng)業(yè)生產(chǎn)力的需求正在推動(dòng)化肥的使用。領(lǐng)先企業(yè)正在大力投資研發(fā),以促進(jìn)這些生物肥料的生產(chǎn)和應(yīng)用。歐洲國(guó)家對(duì)有機(jī)農(nóng)業(yè)表現(xiàn)出濃厚的興趣,增加了對(duì)菌根真菌生物肥料的需求。該地區(qū)的公司提供各種專業(yè)菌根產(chǎn)品,以滿足該地區(qū)的特定需求。在中東和非洲,以南非和以色列為首的菌根真菌生物肥料的普及進(jìn)展緩慢,但人們的認(rèn)識(shí)逐漸提高。當(dāng)?shù)毓菊谕顿Y技術(shù),以提高這些生物肥料的使用和生產(chǎn),以實(shí)現(xiàn)永續(xù)和氣候適應(yīng)農(nóng)業(yè)。FPNV定位矩陣FPNV定位矩陣對(duì)于評(píng)估基于菌根真菌的生物肥料市場(chǎng)至關(guān)重要。我們檢視與業(yè)務(wù)策略和產(chǎn)品滿意度相關(guān)的關(guān)鍵指標(biāo),以對(duì)供應(yīng)商進(jìn)行全面評(píng)估。這種深入的分析使用戶能夠根據(jù)自己的要求做出明智的決策。根據(jù)評(píng)估,供應(yīng)商被分為四個(gè)成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。市場(chǎng)占有率分析市場(chǎng)占有率分析是一種綜合工具,可以對(duì)基于菌根的生物肥料市場(chǎng)供應(yīng)商的現(xiàn)狀進(jìn)行深入而深入的研究。全面比較和分析供應(yīng)商在整體收益、客戶群和其他關(guān)鍵指標(biāo)方面的貢獻(xiàn),以便更好地了解公司的績(jī)效及其在爭(zhēng)奪市場(chǎng)占有率時(shí)面臨的挑戰(zhàn)。此外,該分析還提供了對(duì)該行業(yè)競(jìng)爭(zhēng)特征的寶貴見(jiàn)解,包括在研究基準(zhǔn)年觀察到的累積、分散主導(dǎo)地位和合併特征等因素。這種詳細(xì)程度的提高使供應(yīng)商能夠做出更明智的決策并制定有效的策略,從而在市場(chǎng)上獲得競(jìng)爭(zhēng)優(yōu)勢(shì)。本報(bào)告在以下方面提供了寶貴的見(jiàn)解:1.市場(chǎng)滲透率:提供有關(guān)主要企業(yè)所服務(wù)的市場(chǎng)的全面資訊。2.市場(chǎng)開(kāi)拓:我們深入研究利潤(rùn)豐厚的新興市場(chǎng),并分析其在成熟細(xì)分市場(chǎng)的滲透率。3.市場(chǎng)多元化:提供有關(guān)新產(chǎn)品發(fā)布、開(kāi)拓地區(qū)、最新發(fā)展和投資的詳細(xì)資訊。4.競(jìng)爭(zhēng)評(píng)估與資訊:對(duì)主要企業(yè)的市場(chǎng)占有率、策略、產(chǎn)品、認(rèn)證、監(jiān)管狀況、專利狀況、製造能力等進(jìn)行全面評(píng)估。5.產(chǎn)品開(kāi)發(fā)與創(chuàng)新:提供對(duì)未來(lái)技術(shù)、研發(fā)活動(dòng)和突破性產(chǎn)品開(kāi)發(fā)的見(jiàn)解。本報(bào)告解決了以下關(guān)鍵問(wèn)題:更多詳情,請(qǐng)W:chenyu-zl,獲取報(bào)告樣品和報(bào)價(jià)汽車行業(yè)分析專家,8年汽車行業(yè)研究經(jīng)驗(yàn),邏輯性強(qiáng),數(shù)據(jù)敏感度較高。合作伙伴:道依茨、采埃孚、大陸集團(tuán)、三菱重工、沃爾沃、米其林等。1.菌根真菌生物肥料市場(chǎng)規(guī)模及預(yù)測(cè)為何?2.在菌根真菌生物肥料市場(chǎng)預(yù)測(cè)期內(nèi),有哪些產(chǎn)品、細(xì)分市場(chǎng)、應(yīng)用和領(lǐng)域需要考慮投資?3.菌根真菌生物肥料市場(chǎng)的技術(shù)趨勢(shì)和法規(guī)結(jié)構(gòu)是什么?4.菌根真菌生物肥料市場(chǎng)主要廠商的市場(chǎng)占有率是多少?5.進(jìn)入菌根真菌生物肥料市場(chǎng)的合適型態(tài)和策略性手段是什么?目錄第一章前言第二章調(diào)查方法第三章執(zhí)行摘要第四章市場(chǎng)概況第五章市場(chǎng)洞察市場(chǎng)動(dòng)態(tài)促進(jìn)因素城市居民對(duì)有機(jī)食品的需求日益增加對(duì)環(huán)保生物基肥料的需求不斷成長(zhǎng)隨著溫度升高和水位下降,菌根的巨大好處抑制因素與化學(xué)肥料相比,生物肥料的保質(zhì)期較短,產(chǎn)量較低。機(jī)會(huì)增加政府投資建構(gòu)永續(xù)經(jīng)濟(jì)叢枝菌根真菌工業(yè)生產(chǎn)的生物技術(shù)進(jìn)展任務(wù)植物專用生物肥料的限制和高成本市場(chǎng)區(qū)隔分析類型:內(nèi)生菌根為多種植物提供營(yíng)養(yǎng)的潛力型態(tài):優(yōu)選液體肥料,因?yàn)槠湮漳芰?qiáng)。應(yīng)用:使用菌根真菌生物肥料提高農(nóng)業(yè)作物產(chǎn)量和質(zhì)量分銷管道:透過(guò)線上管道更廣泛地提供和獲取基于菌根真菌的生物肥料市場(chǎng)擾動(dòng)分析波特五力分析價(jià)值煉和關(guān)鍵路徑分析價(jià)格分析技術(shù)分析專利分析貿(mào)易分析法規(guī)結(jié)構(gòu)分析第六章以菌根為基礎(chǔ)的生物肥料市場(chǎng):依類型外生菌根內(nèi)生菌根第七章以菌根為基礎(chǔ)的生物肥料市場(chǎng):依型態(tài)液體固體的第八章以菌根為基礎(chǔ)的生物肥料市場(chǎng):依應(yīng)用分類農(nóng)業(yè)水果和蔬菜油籽和豆類第九章美洲菌根真菌生物肥料市場(chǎng)阿根廷巴西加拿大墨西哥美國(guó)第10章亞太地區(qū)菌根真菌生物肥料市場(chǎng)澳洲中國(guó)印度印尼日本馬來(lái)西亞菲律賓新加坡韓國(guó)臺(tái)灣泰國(guó)越南第十一章歐洲、中東和非洲菌根真菌生物肥料市場(chǎng)丹麥埃及芬蘭法國(guó)德國(guó)以色列義大利荷蘭奈及利亞挪威波蘭卡達(dá)俄羅斯沙烏地阿拉伯南非西班牙瑞典瑞士土耳其阿拉伯聯(lián)合大公國(guó)英國(guó)第十二章競(jìng)爭(zhēng)格局2023年市場(chǎng)占有率分析FPNV定位矩陣,2023競(jìng)爭(zhēng)情境分析Bionema在英國(guó)推出新系列生物肥料300萬(wàn)美元支持菌根真菌保護(hù)TERI與CFCL推出菌根產(chǎn)品戰(zhàn)略分析和建議第13章競(jìng)爭(zhēng)產(chǎn)品組合主要企業(yè)簡(jiǎn)介主要產(chǎn)品系列簡(jiǎn)介目錄圖表ProductCode:MRR-961BA04A2E78[186PagesReport]TheMycorrhizae-BasedBiofertilizersMarketsizewasestimatedatUSD671.96millionin2023andexpectedtoreachUSD760.59millionin2024,ataCAGR13.64%toreachUSD1,645.30millionby2030.Mycorrhizae-basedbiofertilizersareaformofsustainableagriculturalsolutionthatutilizesthesymbioticrelationshipbetweensoilfungi,knownasmycorrhizalfungi,andtherootsofplants.Byextendingtheplant'srootsystem,mycorrhizaeheightentheuptakeofessentialnutrients,includingphosphorusandnitrogen,enhancingplantgrowthandproductivity.Mycorrhizalfungiimproveaplant'swater-useefficiency,therebyincreasingitsabilitytowithstanddroughtconditions.Increasingagriculturalawareness,theescalatingnecessityforsustainability,andissuesrelatedtofoodsecurityhaveacceleratedtheadoptionofmycorrhizae-basedbiofertilizers.Understandingofthelong-termdeleteriouseffectsengenderedbychemicalfertilizershaveresultedinanincreaseduptakeofbio-fertilizers.However,highcostofproductionandlackofawarenessinseveralregionsmighthamperwidespreadadoption.Continualadvancementsinbiotechnologyandgrowinggovernmentalsupportwillundoubtedlyfortifythisexpansion,offeringhigh-yieldingandenvironmentallyfriendlysolutionswithintheagriculturalindustry.Marketplayersareworkingonintroducingnewsolutionsthatcanfurtherimprovesoilfertility,plantnutrientaccessibility,andagriculturalproductivity.KEYMARKETSTATISTICSBaseYear[2023]USD671.96millionEstimatedYear[2024]USD760.59millionForecastYear[2030]USD1,645.30millionCAGR(%)13.64%Type:PotentialofendomycorrhizaetooffernutrientstoagreaterrangeofplantsEctomycorrhizaearecharacterizedbytheformationofasheath,ormantle,thatenvelopestheroottipoftheplantandaHartignet,anetworkofhyphaethatextendsintotherootcortexwithoutpenetratingthecellwalls.Thisbiofertilizerexhibitsanassociationwithwoodyplants,primarilyconifersanddeciduoustreessuchaspinesandoaks.Utilizingectomycorrhizaeasbiofertilizerscanacceleratetheplant'scapacityforphosphorusandnitrogenabsorption,twonutrientscriticalforplantgrowth.Additionally,theyenhancetheplant'sresistancetodiseasesandharshenvironmentalconditionsbyfortifyingtheplant'saccesstowaterandnutrientsinthesoil.However,theplantspecieswithwhichectomycorrhizaecanassociatearerelativelylimitedincomparisontoendomycorrhizae.Unlikeectomycorrhizae,endomycorrhizae,alsoknownasarbuscularmycorrhizae,penetratethecellwalltocreateahighlyefficientpathwayfornutrientexchangebetweentheplantandthesoil.Theyrecentlyemergedasanintriguingsolutiontoimprovesoilrichnessbyenhancingitsnutrientcyclingandstructure.Theyprimarilyaidtheplantinuptakingphosphorus;however,theyarealsoinfluentialintheabsorptionofothermicroelementssuchaszincandcopper.Form:PreferenceforliquidfertilizersowingtotheirstrongabsorptioncapabilitiesLiquidmycorrhizae-basedbiofertilizersofferaconvenientapplicationmethodastheycanbeeasilymixedwithwaterandapplieddirectlytoplantrootsorsprayedonthesoilsurface.Theyhavetheadvantageoffastabsorptionintothesoilmatrixduetotheirliquidnature,facilitatingrapidinitiationofsymbioticassociationswithplantroots.Thesefertilizersareoftenpreferredfortheireaseofhandlingandstorage,reducedriskofcontamination,andeffectiveutilizationindripirrigationsystems.However,theymayrequirespecialhandlingbecausetheycanbesensitivetoheatandcoldextremes.Additionally,thedosageneedstobeprecise,makingitslightlymoredemandingformanualapplications.Solidmycorrhizae-basedbiofertilizers,usuallypresentedingranularorpowderform,aredesignedformorelong-termfertilizerprograms.Theyarelaudedfortheirextendedshelflifeandstabilityinvaryingenvironmentalconditions.Thesefertilizersaretypicallymixedwithsoilorcompostbeforeplanting,helpingtoestablishastrongfungalnetworkaroundtherootzone.Application:Increasedyieldandqualityofcropproduceinagriculturewithmycorrhizae-basedbiofertilizersInagriculture,mycorrhizae-basedbiofertilizerssignificantlycontributetopromotingsustainablefarmingpractices.Thesebiofertilizershavebeenproventominimizerelianceonchemicalfertilizersbyaugmentingplantnutrientabsorption.Themycorrhizaeandplantrootsformasymbioticassociation,enablingplantstoaccessessentialnutrientsandwaterpresentinthesoilmoreefficiently.Thisresultsinincreasedyieldandqualityofagriculturalproduce.Additionally,theuseofMycorrhizae-BasedBiofertilizersalsocontributestosoilhealthbyenhancingsoilstructureandfertility.Theyarealsoknowntofosterincreasedresilienceinplantsagainstvarioussoil-bornediseasesandstressconditions.Hence,theirapplicationhasbecomeacriticalpartofsustainableandorganicagricultureworldwide.Forestry,landscaping,andhorticulturearesomeareaswherethesebiofertilizersfindprominentuse.Inforestry,mycorrhizae-basedbiofertilizersassistinplantationandreforestationeffortsastheyenhanceseedlingsurvivalratesbypromotingrootdevelopmentandnutrientabsorption.Similarly,inlandscapingandhorticulture,thesebiofertilizerscontributetoplantgrowthandmaintenancebyenablingbetternutrientuptake,therebyresultinginimprovedplantaestheticsandhealth.Thesebiofertilizersalsoplayacriticalroleintheprocessofbioremediation,atechniqueusedtotreatandreclaimcontaminatedsoils.Theyhelpinthestabilizationofsoilsandtheremovalofpollutants,renderingthemsafeforplantgrowthandhabitation.DistributionChannel:WideravailabilityandaccessibilityofMycorrhizae-basedbiofertilizersthroughonlinechannelsOnlinedistributionchannelsarebecominganincreasinglyimportantwaytodistributemycorrhizae-basedbiofertilizers.Throughdigitalplatforms,manufacturersanddistributorscancatertoaglobalaudiencewithpotentiallyfewerlimitationscomparedtomoretraditionalroutes.VariousagriculturaleCommerceplatformsfeatureMycorrhizae-basedbiofertilizersfromdifferentmanufacturers,allowinguserstocompareproductsbasedonprice,reviews,andspecifications.Moreover,manymanufacturersanddistributorsmaintaintheirownwebsites,wheretheynotonlyselltheirproductsbutalsoprovideawealthofinformationabouttheproduct,includingitsbenefits,applicationprocedures,andresearchstudiessupportingitsusefulness.Theofflinedistributionchannelcontinuestoholdsignificantrelevanceinthedistributionofmycorrhizae-basedbiofertilizers.Typically,thisinvolvestheprocessofsellingbiofertilizersthroughbrick-and-mortaroutletssuchasfarmingsupplystores,gardeningcenters,orcooperativesocieties.Manufacturersoftenrelyonwholesalersanddistributorswhotaketheresponsibilityofstoring,transporting,andsellingthebiofertilizerstoretailers.Manufacturersmayalsoengageindirectmarketingstrategiesthroughattendingagriculturaltradeshowsandexposorbydirectlyreachingouttofarmsandagriculturalbusinesses.Bothdirectstorepurchasesandpersonalreferencescontinuetobevitalwithinruralcommunitiesandamongfarmerswheredigitalliteracymaystillbelow.Here,trustinfamiliarfaces,firsthandproductinspection,andimmediateavailabilityarekeyfactorsbenefitingtheofflinesalesofMycorrhizae-basedbiofertilizers.RegionalInsightsIntheAmericas,theuseofmycorrhizae-basedbiofertilizersisconsiderableduetotechnologicaladvancementsandanincreasingawarenessoftheimportanceofsustainablefarming.USA-basedcompaniesrepresentamajorportionofbiofertilizerproduction,contributingsignificantlytotheglobalsupply.Despitehighproductioncapacity,significantimportsfromCanada,particularlyofGlomusintraradicesspecies,demonstratetheregion'srobustdemand.Asiastandsasthefastest-growingregionformycorrhizae-basedbiofertilizers,withChinaandIndiabeingmajorproducers.Governmentalincentivestoreducechemicalfertilizerusage,thegrowingpopulation,andtheneedtoboostagriculturalproductivityfuelitsusage.Majorplayersareinvestingheavilyinresearchanddevelopment,promotingtheproductionandapplicationofthesebiofertilizers.Europeancountriesshowakeeninterestinorganicfarmingpractices,elevatingthedemandformycorrhizae-basedbiofertilizers.Companiesintheregionareofferingavarietyofspecializedmycorrhizalproductstocatertoregion-specificdemands.MiddleEast&Africademonstratesamoderatedeploymentofmycorrhizae-basedbiofertilizersanditsawarenessisgraduallyincreasing,spearheadedbySouthAfricaandIsrael.Localcompaniesareinvestingintechnologiestoenhancetheuseandproductionofthesebiofertilizers,aimingforsustainable,climate-resilientagriculture.FPNVPositioningMatrixTheFPNVPositioningMatrixispivotalinevaluatingtheMycorrhizae-BasedBiofertilizersMarket.Itoffersacomprehensiveassessmentofvendors,examiningkeymetricsrelatedtoBusinessStrategyandProductSatisfaction.Thisin-depthanalysisempowersuserstomakewell-informeddecisionsalignedwiththeirrequirements.Basedontheevaluation,thevendorsarethencategorizedintofourdistinctquadrantsrepresentingvaryinglevelsofsuccess:Forefront(F),Pathfinder(P),Niche(N),orVital(V).MarketShareAnalysisTheMarketShareAnalysisisacomprehensivetoolthatprovidesaninsightfulandin-depthexaminationofthecurrentstateofvendorsintheMycorrhizae-BasedBiofertilizersMarket.Bymeticulouslycomparingandanalyzingvendorcontributionsintermsofoverallrevenue,customerbase,andotherkeymetrics,wecanoffercompaniesagreaterunderstandingoftheirperformanceandthechallengestheyfacewhencompetingformarketshare.Additionally,thisanalysisprovidesvaluableinsightsintothecompetitivenatureofthesector,includingfactorssuchasaccumulation,fragmentationdominance,andamalgamationtraitsobservedoverthebaseyearperiodstudied.Withthisexpandedlevelofdetail,vendorscanmakemoreinformeddecisionsanddeviseeffectivestrategiestogainacompetitiveedgeinthemarket.KeyCompanyProfilesThereportdelvesintorecentsignificantdevelopmentsintheMycorrhizae-BasedBiofertilizersMarket,highlightingleadingvendorsandtheirinnovativeprofiles.TheseincludeAgriLife,Asfertglobal,Lda.,Atens,BiostadtIndiaLimited,CortevaAgriscience,FarmadilIndiaLLP,FMCCorporation,GroundworkBioAgLtd.,HelenaAgri-Enterprises,LLC,IndogulfBioAgLLC,JHBiotech,Inc.,Koppert,LallemandInc.,Mycoroot(Pty)Ltd,NeologieBioInnovationsIPrivateLimited,NovozymesA/S,PeptechBiosciencesLtd.,PhmsTechnocarePrivateLimited,PlantHealthCarePLC,PriviLifeSciencesPvtLtd,RealIPMKenyaLtd.,T.StanesandCompanyLimited,UPLLtd.,andValentBioSciencesCorporation.MarketSegmentation&CoverageThisresearchreportcategorizestheMycorrhizae-BasedBiofertilizersMarkettoforecasttherevenuesandanalyzetrendsineachofthefollowingsub-markets:TypeEctomycorrhizaeEndomycorrhizaeFormLiquidSolidApplicationAgricultureFruits&VegetablesOilseeds&PulsesRegionAmericasArgentinaBrazilCanadaMexicoUnitedStatesCaliforniaFloridaIllinoisNewYorkOhioPennsylvaniaTexasAsia-PacificAustraliaChinaIndiaIndonesiaJapanMalaysiaPhilippinesSingaporeSouthKoreaTaiwanThailandVietnamEurope,MiddleEast&AfricaDenmarkEgyptFinlandFranceGermanyIsraelItalyNetherlandsNigeriaNorwayPolandQatarRussiaSaudiArabiaSouthAfricaSpainSwedenSwitzerlandTurkeyUnitedArabEmiratesUnitedKingdomThereportoffersvaluableinsightsonthefollowingaspects:1.MarketPenetration:Itpresentscomprehensiveinformationonthemarketprovidedbykeyplayers.2.MarketDevelopment:Itdelvesdeepintolucrativeemergingmarketsandanalyzesthepenetrationacrossmaturemarketsegments.3.MarketDiversification:Itprovidesdetailedinformationonnewproductlaunches,untappedgeographicregions,recentdevelopments,andinvestments.4.CompetitiveAssessment&Intelligence:Itconductsanexhaustiveassessmentofmarketshares,strategies,products,certifications,regulatoryapprovals,patentlandscape,andmanufacturingcapabilitiesoftheleadingplayers.5.ProductDevelopment&Innovation:Itoffersintelligentinsightsonfuturetechnologies,R&Dactivities,andbreakthroughproductdevelopments.Thereportaddresseskeyquestionssuchas:1.WhatisthemarketsizeandforecastoftheMycorrhizae-BasedBiofertilizersMarket?2.Whichproducts,segments,applications,andareasshouldoneconsiderinvestinginovertheforecastperiodintheMycorrhizae-BasedBiofertilizersMarket?3.WhatarethetechnologytrendsandregulatoryframeworksintheMycorrhizae-BasedBiofertilizersMarket?4.WhatisthemarketshareoftheleadingvendorsintheMycorrhizae-BasedBiofertilizersMarket?5.WhichmodesandstrategicmovesaresuitableforenteringtheMycorrhizae-BasedBiofertilizersMarket?TableofContents1.Preface1.1.ObjectivesoftheStudy1.2.MarketSegmentation&Coverage1.3.YearsConsideredfortheStudy1.4.Currency&Pricing1.5.Language1.6.Stakeholders2.ResearchMethodology2.1.Define:ResearchObjective2.2.Determine:ResearchDesign2.3.Prepare:ResearchInstrument2.4.Collect:DataSource2.5.Analyze:DataInterpretation2.6.Formulate:DataVerification2.7.Publish:ResearchReport2.8.Repeat:ReportUpdate3.ExecutiveSummary4.MarketOverview5.MarketInsights5.1.MarketDynamics5.1.1.Drivers.Growingdemandfororganicfoodproductsamongtheurbanpopulation.Risingneedforenvironmentallyfriendlybio-basedfertilizers.Significantbenefitsofmycorrhizaeamidtherisingtemperatureandlowwaterlevel5.1.2.Restraints.Shortershelflifeofbiofertilizersandlessoutputthanchemicalfertilizers5.1.3.Opportunities.Risinggovernmentinvestmentsinbuildingsustainableeconomies.Biotechnologicaladvancementsinindustrialproductionofarbuscularmycorrhizalfungi5.1.4.Challenges.Limitationsandhighercostassociatedwithplant-specificbiofertilizers5.2.MarketSegmentationAnalysis5.2.1.Type:Potentialofendomycorrhizaetooffernutrientstoagreaterrangeofplants5.2.2.Form:Preferenceforliquidfertilizersowingtotheirstrongabsorptioncapabilities5.2.3.Application:Increasedyieldandqualityofcropproduceinagriculturewithmycorrhizae-basedbiofertilizers5.2.4.DistributionChannel:WideravailabilityandaccessibilityofMycorrhizae-basedbiofertilizersthroughonlinechannels5.3.MarketDisruptionAnalysis5.4.Porter'sFiveForcesAnalysis5.4.1.ThreatofNewEntrants5.4.2.ThreatofSubstitutes5.4.3.BargainingPowerofCustomers5.4.4.BargainingPowerofSuppliers5.4.5.IndustryRivalry5.5.ValueChain&CriticalPathAnalysis5.6.PricingAnalysis5.7.TechnologyAnalysis5.8.PatentAnalysis5.9.TradeAnalysis5.10.RegulatoryFrameworkAnalysis6.Mycorrhizae-BasedBiofertilizersMarket,byType6.1.Introduction6.2.Ectomycorrhizae6.3.Endomycorrhizae7.Mycorrhizae-BasedBiofertilizersMarket,byForm7.1.Introduction7.2.Liquid7.3.Solid8.Mycorrhizae-BasedBiofertilizersMarket,byApplication8.1.Introduction8.2.Agriculture8.3.Fruits&Vegetables8.4.Oilseeds&Pulses9.AmericasMycorrhizae-BasedBiofertilizersMarket9.1.Introduction9.2.Argentina9.3.Brazil9.4.Canada9.5.Mexico9.6.UnitedStates10.Asia-PacificMycorrhizae-BasedBiofertilizersMarket10.1.Introduction10.2.Australia10.3.China10.4.India10.5.Indonesia10.6.Japan10.7.Malaysia10.8.Philippines10.9.Singapore10.10.SouthKorea10.11.Taiwan10.12.Thailand10.13.Vietnam11.Europe,MiddleEast&AfricaMycorrhizae-BasedBiofertilizersMarket11.1.Introduction11.2.Denmark11.3.Egypt11.4.Finland11.5.France11.6.Germany11.7.Israel11.8.Italy11.9.Netherlands11.10.Nigeria11.11.Norway11.12.Poland11.13.Qatar11.14.Russia11.15.SaudiArabia11.16.SouthAfrica11.17.Spain11.18.Sweden11.19.Switzerland11.20.Turkey11.21.UnitedArabEmirates11.22.UnitedKingdom12.CompetitiveLandscape12.1.MarketShareAnalysis,202312.2.FPNVPositioningMatrix,202312.3.CompetitiveScenarioAnalysis12.3.1.BionemaLaunchesNewRangeofBiofertilizersintheUK12.3.2.MycorrhizalFungiGetaUSD3MillionConservationBoost12.3.3.TERIandCFCLlaunchMycorrhizaProduct12.4.StrategyAnalysis&Recommendation13.CompetitivePortfolio13.1.KeyCompanyProfiles13.2.KeyProductPortfolio簡(jiǎn)介目錄圖表LISTOFFIGURESFIGURE1.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKETRESEARCHPROCESSFIGURE2.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,2023VS2030FIGURE3.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,2018-2030(USDMILLION)FIGURE4.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYREGION,2023VS2030(%)FIGURE5.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYREGION,2023VS2024VS2030(USDMILLION)FIGURE6.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKETDYNAMICSFIGURE7.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2023VS2030(%)FIGURE8.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2023VS2024VS2030(USDMILLION)FIGURE9.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2023VS2030(%)FIGURE10.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2023VS2024VS2030(USDMILLION)FIGURE11.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2023VS2030(%)FIGURE12.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2023VS2024VS2030(USDMILLION)FIGURE13.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2030(%)FIGURE14.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2024VS2030(USDMILLION)FIGURE15.UNITEDSTATESMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYSTATE,2023VS2030(%)FIGURE16.UNITEDSTATESMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYSTATE,2023VS2024VS2030(USDMILLION)FIGURE17.ASIA-PACIFICMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2030(%)FIGURE18.ASIA-PACIFICMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2024VS2030(USDMILLION)FIGURE19.EUROPE,MIDDLEEAST&AFRICAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2030(%)FIGURE20.EUROPE,MIDDLEEAST&AFRICAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2023VS2024VS2030(USDMILLION)FIGURE21.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSHARE,BYKEYPLAYER,2023FIGURE22.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKET,FPNVPOSITIONINGMATRIX,2023LISTOFTABLESTABLE1.MYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSEGMENTATION&COVERAGETABLE2.UNITEDSTATESDOLLAREXCHANGERATE,2018-2023TABLE3.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,2018-2023(USDMILLION)TABLE4.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,2024-2030(USDMILLION)TABLE5.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYREGION,2018-2023(USDMILLION)TABLE6.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYREGION,2024-2030(USDMILLION)TABLE7.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2018-2023(USDMILLION)TABLE8.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2024-2030(USDMILLION)TABLE9.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYECTOMYCORRHIZAE,BYREGION,2018-2023(USDMILLION)TABLE10.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYECTOMYCORRHIZAE,BYREGION,2024-2030(USDMILLION)TABLE11.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYENDOMYCORRHIZAE,BYREGION,2018-2023(USDMILLION)TABLE12.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYENDOMYCORRHIZAE,BYREGION,2024-2030(USDMILLION)TABLE13.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2018-2023(USDMILLION)TABLE14.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2024-2030(USDMILLION)TABLE15.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYLIQUID,BYREGION,2018-2023(USDMILLION)TABLE16.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYLIQUID,BYREGION,2024-2030(USDMILLION)TABLE17.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYSOLID,BYREGION,2018-2023(USDMILLION)TABLE18.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYSOLID,BYREGION,2024-2030(USDMILLION)TABLE19.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2018-2023(USDMILLION)TABLE20.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2024-2030(USDMILLION)TABLE21.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAGRICULTURE,BYREGION,2018-2023(USDMILLION)TABLE22.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAGRICULTURE,BYREGION,2024-2030(USDMILLION)TABLE23.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFRUITS&VEGETABLES,BYREGION,2018-2023(USDMILLION)TABLE24.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFRUITS&VEGETABLES,BYREGION,2024-2030(USDMILLION)TABLE25.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYOILSEEDS&PULSES,BYREGION,2018-2023(USDMILLION)TABLE26.GLOBALMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYOILSEEDS&PULSES,BYREGION,2024-2030(USDMILLION)TABLE27.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2018-2023(USDMILLION)TABLE28.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2024-2030(USDMILLION)TABLE29.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2018-2023(USDMILLION)TABLE30.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2024-2030(USDMILLION)TABLE31.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2018-2023(USDMILLION)TABLE32.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2024-2030(USDMILLION)TABLE33.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2018-2023(USDMILLION)TABLE34.AMERICASMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYCOUNTRY,2024-2030(USDMILLION)TABLE35.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2018-2023(USDMILLION)TABLE36.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE,2024-2030(USDMILLION)TABLE37.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2018-2023(USDMILLION)TABLE38.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYFORM,2024-2030(USDMILLION)TABLE39.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2018-2023(USDMILLION)TABLE40.ARGENTINAMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYAPPLICATION,2024-2030(USDMILLION)TABLE41.BRAZILMYCORRHIZAE-BASEDBIOFERTILIZERSMARKETSIZE,BYTYPE

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