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    • 3. 发明授权
    • Ant controllers and method for application thereof
    • 蚂蚁控制器及其应用方法
    • US08361487B1
    • 2013-01-29
    • US10019481
    • 2000-06-28
    • Kazuhiro TakagiYasuhiro WadaRikio Yamaguchi
    • Kazuhiro TakagiYasuhiro WadaRikio Yamaguchi
    • A01N25/04
    • A01N47/34A01N37/44A01N37/50A01N47/02
    • The present invention provides an excellent ant controller for protecting wooden materials such as trees, board fences, sleepers, etc. and structures such as shrines, temples, houses, outhouses, factories, etc. from termites, and for controlling ants doing harm to crops or humans, which contains as active ingredient thereof a hydrazine derivative represented by general formula (I) [wherein A represents one of formulas (II), (III), (IV), and (V), (wherein R4 and R5 are H, C1-C6 alkyl, etc.; X is 1 to 5 substituents selected from H, halogen and (halo) C1-C6 alkyl); R1 is H or C1-C6 alkyl; R2 and R3 are H, OH, C1-C6 alkyl, phenylcarbonyl, etc.; Y is 1 to 5 substituents selected from H, halogen, nitro and cyano; Z is halogen, cyano, C1-C6 alkyl, etc.; and W is O or S]; and a method for application of the ant controller.
    • 本发明提供了一种优良的蚂蚁控制器,用于保护诸如树木,板栅,枕木等木质材料,以及来自白蚁的神社,寺庙,房屋,房屋,工厂等结构,以及控制对作物造成危害的蚂蚁 (I)表示的肼衍生物[其中A表示式(II),(III),(IV)和(V)中的一种,(其中R 4和R 5为H ,C 1 -C 6烷基等; X为1至5个选自H,卤素和(卤代)C 1 -C 6烷基的取代基); R1是H或C1-C6烷基; R2和R3是H,OH,C1-C6烷基,苯基羰基等; Y是1至5个选自H,卤素,硝基和氰基的取代基; Z是卤素,氰基,C 1 -C 6烷基等; W为O或S]; 以及应用蚂蚁控制器的方法。
    • 5. 发明申请
    • NOVEL MICROORGANISM CAPABLE OF MICROBIALLY DECOMPOSING CHLORO-, METHYLTHIO- AND METHOXY-TRIAZINE AGRICHEMICALS
    • 新型微生物微生物分解氯化物,甲基硫代和甲基三唑类农药
    • US20100068788A1
    • 2010-03-18
    • US12513573
    • 2007-11-20
    • Kazuhiro TakagiKunihiko FujiiNaoki HaradaAkio Iwasaki
    • Kazuhiro TakagiKunihiko FujiiNaoki HaradaAkio Iwasaki
    • A62D3/02C12N1/20
    • B09C1/10A62D3/02A62D2101/26C02F3/34C02F2101/306C12R1/01Y10S435/822
    • Disclosed are: a novel microorganism which can decompose a methylthiotriazine compound (particularly, simetryn, dimethametryn, prometryn), a chlorotriazine compound (particularly, simazine, atrazine, propazine) and a methoxytriazine compound (particularly, simeton, atraton, prometon) which have been frequently used as agrichemicals or the like; and a method for decomposing a methylthiotriazine compound, a chlorotriazine compound and/or a methoxytriazine compound by using the microorganism. Specifically disclosed are: a novel bacterium Nocardioides sp. strain MTD22 which is capable of decomposing a methylthiotriazine compound, a chlorotriazine compound and a methoxytriazine compound; and a method for decomposing a methylthiotriazine compound, a chlorotriazine compound and/or a methoxytriazine compound, particularly simetryn, dimethametryn, prometryn, simazine, atrazine, propazine, simeton, atraton and/or prometon, by using the microorganism.
    • 公开了一种可以分解甲基硫代三嗪化合物(特别是西米特,二甲基丙烯酰胺,prometryn),氯代三嗪化合物(特别是西马拉嗪,莠去津,丙嗪)和甲氧基三嗪化合物(特别是西蒙特,阿特拉津,普罗特酮)的新型微生物, 经常用作农药等; 以及通过使用微生物分解甲基硫代三嗪化合物,氯代三嗪化合物和/或甲氧基三嗪化合物的方法。 具体公开的是:新型细菌诺卡氏菌属 能分解甲基硫代三嗪化合物,氯代三嗪化合物和甲氧基三嗪化合物的菌株MTD22; 以及通过使用该微生物分解甲基硫代三嗪化合物,氯代三嗪化合物和/或甲氧基三嗪化合物,特别是西蒙特,二甲基丙烯酸,衍生物,西马拉平,莠去津,丙嗪,西蒙,阿特拉津和/或前导子的方法。
    • 6. 发明授权
    • Examination method of buffer capacity of saliva and examination instrument of buffer capacity of saliva
    • 唾液缓冲能力检查方法和唾液缓冲能力检查仪器
    • US07160731B2
    • 2007-01-09
    • US10241645
    • 2002-09-12
    • Kazuhiro TakagiJunichi Okada
    • Kazuhiro TakagiJunichi Okada
    • G01N31/16
    • G01N33/84
    • To provide a simple examination method of buffer capacity of saliva without influence by examiner's subjectivity and an examination instrument to carry out suitably the examination method, an examination instrument, in which two to ten kinds of chemical liquids each containing a pH indicator having a transition interval within a pH range of 3.0 to 7.0 and capable of easily discriminating its indicated color at two or more stages and an acid in an amount so as to exhibit a different pH value within a pH range of 1.5 or more but lower than 3.0 when water in the same amount as that of saliva to be examined is added at a temperature of 25° C. and a humidity of 50% are each immersed in a water-absorptive material, or are in a liquid or gel state and are accommodated within a constant-volume container, is prepared; saliva of a subject in a volume to be examined is added to each of the chemical liquids; after lapsing a predetermined time, the color of each chemical liquid is measured as a readily discriminable indicated color; and the buffer capacity of saliva is determined by overall evaluation from the readily discriminable indicated color as exhibited by the chemical liquid.
    • 为了提供唾液的缓冲能力的检查方法,不受检查者的主观性的影响,检查仪器适当地进行检查方法,检查仪器,其中两至十种各自含有具有过渡间隔的pH指示剂的化学液体 在3.0至7.0的pH范围内,并且能够容易地在两个或多个阶段区分其指示的颜色,并且酸的量可以在1.5以上且低于3.0的pH范围内显示不同的pH值 在25℃的温度和50%的湿度下加入与待检查的唾液相同的量浸渍在吸水材料中,或者处于液体或凝胶状态,并且容纳在恒定的 体积容器,准备; 将待检体积的受检者的唾液加入到每种化学液体中; 在经过预定时间之后,每个化学液体的颜色被测量为容易识别的指示颜色; 唾液的缓冲能力由化学液体显示的容易辨别的指示颜色的总体评价来确定。
    • 7. 发明授权
    • Method of enriching organic contaminant-decomposing bacteria in porous material for treating soil
    • 富集多孔材料中有机污染物分解细菌处理土壤的方法
    • US06451580B1
    • 2002-09-17
    • US09378762
    • 1999-08-23
    • Kazuhiro TakagiYuuichi Yoshioka
    • Kazuhiro TakagiYuuichi Yoshioka
    • B09B300
    • B09C1/10C12N11/14
    • A porous material having a greater adsorptivity for adsorbing organic contaminants, such as agricultural chemicals, than a target soil, is fragmented. The fragmented porous material is mixed into a soil which the decomposing bacteria inhabit, thereby forming an enrichment soil layer. Through the enrichment soil layer, there is circulated an inorganic salt medium containing carbon and nitrogen sources formed by only an organic contaminant to be decomposed, thereby rapidly enriching the decomposing bacteria in the fragmented porous material. The fragmented porous material is inoculated into new fragmented porous material to form an enrichment layer consisting of the fragmented porous material only. Into the enrichment layer, the inorganic salt medium containing carbon and nitrogen sources formed by only an organic contaminant to be decomposed is circulated and the operation of enriching decomposing bacteria is repeated a plurality of times for the new fragmented porous material as well to enhance the degree of purity and enrichment of the decomposing bacteria, thereby rapidly isolating the decomposing bacteria.
    • 与目标土壤相比,吸附有机污染物(如农药)的吸附性更高的多孔材料是碎片化的。 将分散的多孔材料混合到分解细菌所在的土壤中,从而形成富集土层。 通过富集土层循环含有由仅分解有机污染物形成的碳源和氮源的无机盐介质,从而快速富集碎裂多孔材料中的分解菌。 将碎裂的多孔材料接种到新的碎片多孔材料中以形成仅由碎片多孔材料组成的富集层。 向富集层中循环仅由有机污染物形成的含有碳源和氮源的无机盐介质进行分解,对于新的碎裂多孔质材料,多次重复分解细菌的富集操作,提高其分解度 的分解细菌的纯度和富集,从而快速分离分解细菌。
    • 9. 发明授权
    • Method of decontaminating polluted environments with bacteria on a porous support
    • 在多孔支撑物上用细菌去污染污染环境的方法
    • US08283154B2
    • 2012-10-09
    • US12561078
    • 2009-09-16
    • Kazuhiro TakagiNaoki HaradaYuuichi Yoshioka
    • Kazuhiro TakagiNaoki HaradaYuuichi Yoshioka
    • A62D3/02C12N11/14C12N11/02C12N11/04
    • C12P39/00B09C1/002B09C1/10C12N11/02C12N11/12C12R1/01C12R1/06Y10S435/822Y10S435/83
    • The present invention provides a stable complex microbial system, which simultaneously decomposes a plurality of organic contaminants even under a polluted environment with these contaminants and permits more effective decomposition of persistent organic contaminants such as PCNB and simazine. A support for holding a complexed accumulation of degrading bacteria, which contains a porous material provided as a support on which a degrading bacterium A capable of degrading at least one organic contaminant and a degrading bacterium B capable of degrading another organic contaminant are accumulated, is produced. The degrading bacterium A may be a PCNB-degrading bacterium, particularly a degrading bacterium containing a degrading bacterium having part or all of mycological characteristics of Nocardioides sp. PD653 and the degrading bacterium B may be a degrading bacterium containing a degrading bacterium having part or all of mycological characteristics of β-Proteobacteria CDB21.
    • 本发明提供了一种稳定的复合微生物系统,即使在这些污染物的污染环境下也能同时分解多种有机污染物,并允许持久性有机污染物如PCNB和西马嗪的更有效分解。 产生含有多余材料的支持物,其含有多孔材料作为载体,所述多孔材料在其上堆积能够降解至少一种有机污染物的降解菌A和能够降解另一种有机污染物的降解菌B 。 降解菌A可以是PCNB降解细菌,特别是含有具有诺卡氏菌属的真菌学特征的部分或全部的降解菌的降解菌。 PD653和降解菌B可以是含有降解菌的降解细菌,其具有部分或全部具有细菌CDB21的真菌学特征。
    • 10. 发明授权
    • Examination method of buffer capacity of saliva and examination instrument of buffer capacity of saliva
    • 唾液缓冲能力检查方法和唾液缓冲能力检查仪器
    • US06762058B2
    • 2004-07-13
    • US10131190
    • 2002-04-25
    • Kazuhiro TakagiJunichi OkadaYoshiko Watanabe
    • Kazuhiro TakagiJunichi OkadaYoshiko Watanabe
    • G01N3116
    • G01N33/52G01N33/84
    • To provide an examination method of buffer capacity of saliva and an examination instrument of buffer capacity of saliva, by which the buffer capacity of saliva of a subject can be examined simply without being influenced by an amount of saliva and preciously without being influenced by the subjectivity of an examiner, an end portion of an absorptive material in a predetermined shape, containing a pH indicator at least having one or more color transition range of pH 4.0 to 7.0 and an acid, is dipped in saliva to allow the saliva to penetrate into the absorptive material, and a buffer capacity of the saliva is examined from a distance where a color to be exhibited by the pH indicator has changed by the penetrated saliva from a predetermined place of the absorptive material and a distance where the saliva has penetrated from a predetermined place of the absorptive material.
    • 提供唾液缓冲能力的检查方法和唾液缓冲能力的检查仪器,通过该检查方法可以简单地检查受试者的唾液的缓冲能力,而不受唾液和珍贵的影响,而不受主观性的影响 的检查者,将含有至少具有一个或多个pH 4.0至7.0的颜色转变范围的pH指示剂和酸的预定形状的吸收材料的端部浸入唾液中以允许唾液渗透入 从所述吸收材料的预定位置的渗透的唾液和从预定的位置渗透的距离从pH指示剂显示的颜色变化的距离检查唾液的缓冲能力, 吸收材料的地方。