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預計2023年菌根生物肥料市場規(guī)模為6.7196億美元,2024年將達7.6059億美元,2030年將達16.453億美元,復合年增長率為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係。透過擴大植物的根系,菌根真菌增加了必需營養(yǎng)素的吸收,包括磷和氮,從而改善植物的生長和生產(chǎn)力。菌根真菌提高植物的水分利用效率并增強其抵抗干旱的能力。農(nóng)業(yè)意識的提高、對永續(xù)性的需求不斷增加以及與糧食安全相關的問題正在加速采用基于菌根真菌的生物肥料。對化學肥料長期負面影響的了解導致生物肥料的使用增加。然而,某些地區(qū)的高生產(chǎn)成本和低認知度可能會阻礙普及。生物技術的持續(xù)進步和政府支持的增加無疑將增強這種擴張,為農(nóng)業(yè)提供產(chǎn)量且環(huán)保的解決方案。市場相關人員正在努力推出新的解決方案,以進一步提高土壤肥力、植物養(yǎng)分利用率和農(nóng)業(yè)生產(chǎn)力。主要市場統(tǒng)計基準年[2023]67196萬美元預測年份[2024]76059萬美元預測年份[2030]16.453億美元復合年增長率(%)13.64%內(nèi)生菌根為更多植物提供營養(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胞壁的菌絲網(wǎng)絡(心線)。這種生物肥料主要與針葉樹等木本植物和松樹和橡樹等落葉樹有關。使用外生菌根真菌作為生物肥料可以促進植物生長必需的兩種營養(yǎng)素磷和氮的吸收能力。此外,透過讓植物獲得土壤中的水和養(yǎng)分,它們可以增強對疾病和惡劣環(huán)境條件的抵抗力。然而,與內(nèi)生菌根相比,外生菌根可以結合的植物類型相對有限。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,它已成為一種透過增強養(yǎng)分循環(huán)和結構來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,因為其吸收能力強。液體肥料易于施用,因為它們可以與水混合,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,并具有快速開始與植物根部共存的優(yōu)點。這些肥料通常是首選,因為它們易于處理和儲存,污染風險低,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,因為它們對極熱或極冷敏感。此外,手動使用有些繁瑣,因為劑量必須精確?;诠虘B(tài)菌根真菌的生物肥料通常為顆?;蚍勰?,專為長期肥料計劃而設計。它因其較長的保質(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大的真菌網(wǎng)絡。在應用農(nóng)業(yè)中使用基于菌根真菌的生物肥料來提高作物產(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永續(xù)農(nóng)業(yè)做出重大貢獻。事實證明,這些生物肥料可以透過增加植物對養(yǎng)分的吸收來最大限度地減少對化學肥料的依賴。菌根真菌和植物根部形成共生關係,使植物更有效地利用土壤中存在的必需養(yǎng)分和水。結果,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改善土壤結構和肥力來促進土壤健康。它還可以提高植物對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,因為它們透過促進根部發(fā)育和養(yǎng)分吸收來提高幼苗的存活率。同樣,在園林綠化和園藝領域,這些生物肥料透過允許更好的養(yǎng)分吸收來促進植物生長和維護,從而改善植物的美觀和健康。這些生物肥料在生物修復過程中也發(fā)揮著重要作用,生物修復是一種處理和再生受污染土壤的技術。生物肥料有助于穩(wěn)定土壤并去除污染物,使植物生長和居住安全。分銷管道:透過線上管道擴大菌根真菌生物肥料的可用性和可及性線上分銷管道對于分銷基于菌根真菌的生物肥料變得越來越重要。與傳統(tǒng)途徑相比,透過數(shù)位平臺,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)電子商務平臺都有來自不同製造商的菌根真菌生物肥料,允許用戶根據(jù)價格、評論和規(guī)格來比較產(chǎn)品。此外,許多製造商和分銷商維護自己的網(wǎng)站,不僅銷售他們的產(chǎn)品,還提供有關其產(chǎn)品的大量信息,包括其優(yōu)點、應用說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,這涉及透過農(nóng)業(yè)供應商店、園藝中心和合作社等實體商店銷售生物肥料的過程。製造商通常依賴批發(fā)商和分銷商,他們負責儲存、運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)展覽會和展覽會以及直接與農(nóng)場和農(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,直接店內(nèi)購買和個人推薦仍然很重要。在這里,熟悉度、直接產(chǎn)品測試和隨時可用是有利于菌根真菌生物肥料線下銷售的關鍵因素。區(qū)域洞察由于技術進步和人們對永續(xù)農(nóng)業(yè)重要性的認識不斷提高,在美洲,基于菌根真菌的生物肥料的使用顯著增加。美國公司占生物肥料生產(chǎn)的大部分,并對全球供應做出了重大貢獻。儘管生產(chǎn)能力很高,但從加拿大進口,特別是根內(nèi)球囊霉屬物種,進口量很高,顯示該地區(qū)需求強勁。亞洲是菌根真菌生物肥料成長最快的地區(qū),其中中國和印度是主要生產(chǎn)國。政府減少化肥使用的激勵措施、人口成長以及提高農(nóng)業(yè)生產(chǎn)力的需求正在推動化肥的使用。領先企業(yè)正在大力投資研發(fā),以促進這些生物肥料的生產(chǎn)和應用。歐洲國家對有機農(nóng)業(yè)表現(xiàn)出濃厚的興趣,增加了對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展緩慢,但人們的認識逐漸提高。當?shù)毓菊谕顿Y技術,以提高這些生物肥料的使用和生產(chǎn),以實現(xiàn)永續(xù)和氣候適應農(nóng)業(yè)。FPNV定位矩陣FPNV定位矩陣對于評估基于菌根真菌的生物肥料市場至關重要。我們檢視與業(yè)務策略和產(chǎn)品滿意度相關的關鍵指標,以對供應商進行全面評估。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)評估,供應商被分為四個成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。市場占有率分析市場占有率分析是一種綜合工具,可以對基于菌根的生物肥料市場供應商的現(xiàn)狀進行深入而深入的研究。全面比較和分析供應商在整體收益、客戶群和其他關鍵指標方面的貢獻,以便更好地了解公司的績效及其在爭奪市場占有率時面臨的挑戰(zhàn)。此外,該分析還提供了對該行業(yè)競爭特征的寶貴見解,包括在研究基準年觀察到的累積、分散主導地位和合併特征等因素。這種詳細程度的提高使供應商能夠做出更明智的決策并制定有效的策略,從而在市場上獲得競爭優(yōu)勢。本報告在以下方面提供了寶貴的見解:1.市場滲透率:提供有關主要企業(yè)所服務的市場的全面資訊。2.市場開拓:我們深入研究利潤豐厚的新興市場,并分析其在成熟細分市場的滲透率。3.市場多元化:提供有關新產(chǎn)品發(fā)布、開拓地區(qū)、最新發(fā)展和投資的詳細資訊。4.競爭評估與資訊:對主要企業(yè)的市場占有率、策略、產(chǎn)品、認證、監(jiān)管狀況、專利狀況、製造能力等進行全面評估。5.產(chǎn)品開發(fā)與創(chuàng)新:提供對未來技術、研發(fā)活動和突破性產(chǎn)品開發(fā)的見解。本報告解決了以下關鍵問題:更多詳情,請W:chenyu-zl,獲取報告樣品和報價汽車行業(yè)分析專家,8年汽車行業(yè)研究經(jīng)驗,邏輯性強,數(shù)據(jù)敏感度較高。合作伙伴:道依茨、采埃孚、大陸集團、三菱重工、沃爾沃、米其林等。1.菌根真菌生物肥料市場規(guī)模及預測為何?2.在菌根真菌生物肥料市場預測期內(nèi),有哪些產(chǎn)品、細分市場、應用和領域需要考慮投資?3.菌根真菌生物肥料市場的技術趨勢和法規(guī)結構是什么?4.菌根真菌生物肥料市場主要廠商的市場占有率是多少?5.進入菌根真菌生物肥料市場的合適型態(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)行摘要第四章市場概況第五章市場洞察市場動態(tài)促進因素城市居民對有機食品的需求日益增加對環(huán)保生物基肥料的需求不斷成長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肥料相比,生物肥料的保質(zhì)期較短,產(chǎn)量較低。機會增加政府投資建構永續(xù)經(jīng)濟叢枝菌根真菌工業(yè)生產(chǎn)的生物技術進展任務植物專用生物肥料的限制和高成本市場區(qū)隔分析類型:內(nèi)生菌根為多種植物提供營養(yǎng)的潛力型態(tài):優(yōu)選液體肥料,因為其吸收能力強。應用: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擾動分析波特五力分析價值煉和關鍵路徑分析價格分析技術分析專利分析貿(mào)易分析法規(guī)結構分析第六章以菌根為基礎的生物肥料市場:依類型外生菌根內(nèi)生菌根第七章以菌根為基礎的生物肥料市場:依型態(tài)液體固體的第八章以菌根為基礎的生物肥料市場:依應用分類農(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阿根廷巴西加拿大墨西哥美國第10章亞太地區(qū)菌根真菌生物肥料市場澳洲中國印度印尼日本馬來西亞菲律賓新加坡韓國臺灣泰國越南第十一章歐洲、中東和非洲菌根真菌生物肥料市場丹麥埃及芬蘭法國德國以色列義大利荷蘭奈及利亞挪威波蘭卡達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)合大公國英國第十二章競爭格局2023年市場占有率分析FPNV定位矩陣,2023競爭情境分析Bionema在英國推出新系列生物肥料300萬美元支持菌根真菌保護TERI與CFCL推出菌根產(chǎn)品戰(zhàn)略分析和建議第13章競爭產(chǎn)品組合主要企業(yè)簡介主要產(chǎn)品系列簡介目錄圖表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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