植物营养与肥料学报
植物營養與肥料學報
식물영양여비료학보
PLANT NUTRITION AND FERTILIZER SCIENCE
2013年
6期
1450-1458
,共9页
尹承苗%陈学森%沈向%张兆波%孙海兵%毛志泉
尹承苗%陳學森%瀋嚮%張兆波%孫海兵%毛誌泉
윤승묘%진학삼%침향%장조파%손해병%모지천
有机物料发酵液%苹果幼树%连作障碍%土壤环境
有機物料髮酵液%蘋果幼樹%連作障礙%土壤環境
유궤물료발효액%평과유수%련작장애%토양배경
fermented organic fluid%young apple tree%replant disease%soil property
在老果园的更新中,连作障碍是制约果树持续发展的重要因素,施用获得国家专利的不同有机物料发酵液可有效缓解连作果树再植病。本试验以富士/八棱海棠二年生嫁接苗为试材,设计了六个不同有机物料发酵液灌溉浓度:(CK)、1%(T1)、3%(T2)、5%(T3)、7%(T4)、9%(T5),利用盆栽方法,在春、夏、秋季三个季节研究了重茬土上利用该技术制备的有机物料发酵液对连作土壤条件下苹果幼树生物量及土壤环境的影响。结果表明:1)春、夏、秋三个季节,浇灌不同浓度的有机物料发酵液均不同程度地提高连作土的有机质、铵态氮、硝态氮、速效磷、速效钾含量,以添加9%的发酵液(T5)的土壤养分含量最高。2)浇灌有机物料发酵液对苹果幼树生长发育的作用表现为“低促高抑”的效应,浇灌浓度小于5%(T3),可促进苹果幼树的生长,且以浇灌浓度为3%(T2)增长最显著。浇灌浓度在7%(T4)和9%(T5)时,对苹果幼树的生长有抑制作用。3)浇灌不同浓度的有机物料发酵液均可提高连作土壤酶的活性,且以T2处理土壤过氧化氢酶活性、土壤脲酶、蔗糖酶和中性磷酸酶的活性最高。4)浇灌有机物料发酵液可增加土壤微生物的数量,以细菌数量增长最显著,放线菌次之,真菌最小。
在老果園的更新中,連作障礙是製約果樹持續髮展的重要因素,施用穫得國傢專利的不同有機物料髮酵液可有效緩解連作果樹再植病。本試驗以富士/八稜海棠二年生嫁接苗為試材,設計瞭六箇不同有機物料髮酵液灌溉濃度:(CK)、1%(T1)、3%(T2)、5%(T3)、7%(T4)、9%(T5),利用盆栽方法,在春、夏、鞦季三箇季節研究瞭重茬土上利用該技術製備的有機物料髮酵液對連作土壤條件下蘋果幼樹生物量及土壤環境的影響。結果錶明:1)春、夏、鞦三箇季節,澆灌不同濃度的有機物料髮酵液均不同程度地提高連作土的有機質、銨態氮、硝態氮、速效燐、速效鉀含量,以添加9%的髮酵液(T5)的土壤養分含量最高。2)澆灌有機物料髮酵液對蘋果幼樹生長髮育的作用錶現為“低促高抑”的效應,澆灌濃度小于5%(T3),可促進蘋果幼樹的生長,且以澆灌濃度為3%(T2)增長最顯著。澆灌濃度在7%(T4)和9%(T5)時,對蘋果幼樹的生長有抑製作用。3)澆灌不同濃度的有機物料髮酵液均可提高連作土壤酶的活性,且以T2處理土壤過氧化氫酶活性、土壤脲酶、蔗糖酶和中性燐痠酶的活性最高。4)澆灌有機物料髮酵液可增加土壤微生物的數量,以細菌數量增長最顯著,放線菌次之,真菌最小。
재로과완적경신중,련작장애시제약과수지속발전적중요인소,시용획득국가전리적불동유궤물료발효액가유효완해련작과수재식병。본시험이부사/팔릉해당이년생가접묘위시재,설계료륙개불동유궤물료발효액관개농도:(CK)、1%(T1)、3%(T2)、5%(T3)、7%(T4)、9%(T5),이용분재방법,재춘、하、추계삼개계절연구료중치토상이용해기술제비적유궤물료발효액대련작토양조건하평과유수생물량급토양배경적영향。결과표명:1)춘、하、추삼개계절,요관불동농도적유궤물료발효액균불동정도지제고련작토적유궤질、안태담、초태담、속효린、속효갑함량,이첨가9%적발효액(T5)적토양양분함량최고。2)요관유궤물료발효액대평과유수생장발육적작용표현위“저촉고억”적효응,요관농도소우5%(T3),가촉진평과유수적생장,차이요관농도위3%(T2)증장최현저。요관농도재7%(T4)화9%(T5)시,대평과유수적생장유억제작용。3)요관불동농도적유궤물료발효액균가제고련작토양매적활성,차이T2처리토양과양화경매활성、토양뇨매、자당매화중성린산매적활성최고。4)요관유궤물료발효액가증가토양미생물적수량,이세균수량증장최현저,방선균차지,진균최소。
In the replant of apple orchard , some diseases often break out in young apple trees .Applying organic ferment fluid with proper ratio of certain organic materials ( Patent No.ZL 2009 1 001 5530.2) was proved effective to alleviate these diseases .Using pot experiment and the Fuji apple seedlings grafted on Malus robusta biennial as the test materials, six concentrations of the fermented organic fluid were designed to irrigate the seedlings: CK (distilled water), 1%(T1), 3%(T2), 5%(T3), 7%(T4) and 9%(T5).Each treatment had three replicates and each pot had three irrigations .The effect of different adding levels on the young apple tree biomass and soil properties in continuous apple cropping soil were studied .The results show that: 1 ) In spring , summer and autumn , all the five irrigation concentrations of fermented organic fluid could improve the soil organic matter , ammonium nitrogen , nitrate nitrogen , available phosphorus and potassium contents of the pot soils to some extent , and the maximum increase was with T 5.2 ) The fermented organic fluid has the effect of “promotion in low and inhibition in high concentration”.When irrigating levels were lower than 3%( T3 ) , there is positive effect but negative when the adding levels higher than 5%.The irrigating level of 3%( T2 ) gave the highest biomass and the most satisfactory disease alleviating effect .3 ) Irrigating young apple trees with the five fermented organic fluid concentrations could increase the activities of soil urease , catalase , invertase and neutral phosphatase .The 3%treatment ( T2 ) gave the highest activities . 4 ) Applying the fermented organic fluid could enhance the microorganisms quantity significantly .The increase was in order of bacteria higher than fungi and higher than actinobacteria .
