石榴裂果发生规律及其防治对策研究

石榴裂果是云南蒙自石榴生产中的突出问题 ;从幼果期至成熟果期均会发生裂果。一般果园裂果率为 2 0 %～2 5 % ,严重的果园达 5 0 %～ 70 % ,造成严重经济损失。在掌握其发生规律的基础上 ,采取春初施足农家肥 ,花期至幼果期每间隔 7～ 10d灌水 1次 ;幼果期至果实膨长期适当控水 ,每间隔 10～ 15d灌水 1次 ;临近雨季前 1个月逐增浇灌水频率 ,每间隔 7～ 10d灌水 1次 ,并以少量多次施肥。缓解前期干旱、气候干燥和与后期雨季连续降雨、果园高湿矛盾 ,增强果皮活性、韧性和抗性 ,控制好主要病虫害。裂果率由原来的 2 0 %～ 2 5 %降为现 2 .5 %～ 3.7%。

蛋白质含量不同的饲料对树qu氮平衡的影响

五组成长期的树qu, 分别喂从以蛋白质含量为10%、15%、20%、25%和30%的 配合饲料,为时15d。统计学分析各组日均氮沉积量和沉积率差异极为显著(P<0.01) 。表明树qu饲料中蛋白质的含量以25%较为合适。按采食量折算生长树qu每日每千克体重应进食52.0—62.0克蛋白质。图2表9参9

西黑冠长臂猿雄性取代前后鸣叫行为的变化

本文通过长时间的野外监测,首次报道了西黑冠长臂猿的一次雄性取代行为。一个研究群体(G3)中的1只亚成年雄性长臂猿在10岁左右取代了相邻群体(G2)中的成年雄性。整个取代过程持续了15d时间。雄性取代发生前,G2中雌雄的配对关系已经不稳固,这为雄性取代提供了机会。而G2与G3群的一次长时间冲突可能消耗了G2中成年雄性大量体能,这为G3中的亚成年雄性打败并取代G2中的成年雄性创造了机会。本研究在取代发生后,对新形成群体的鸣叫行为进行了连续4个月的监测。结果表明与处于稳定时期的G2群相比,新形成群体的鸣叫频次更高,但每次二重唱中雌性的平均激动鸣叫次数降低。这证明了Geissmann(1986)提出的假说,新配对的群体应该在尽量短的时间内多练习二重唱,这样导致新配对群体的鸣叫频率明显升高。虽然经历了4个月的合唱练习,新形成群体的激动鸣叫次数仍然偏低,并且两只雌性同时激动鸣叫的频次也比较低。这说明新形成的配对之间配合依然不默契,或者说明配对之间的关系还不稳定。

金翅雀的繁殖生态

2005年3月-7月对南充市金翅雀的繁殖生态进行了研究.结果表明:金翅雀3月开始繁殖;雌雄共同筑巢,营巢期4-5d;窝卵数:3.67±0.58(n=3),孵化率63.64%;雌孵卵,孵卵期12-13d,孵卵期间食物由雄鸟提供;双亲共同育雏,育雏期14-15d.雏鸟生长曲线呈“S”型.

EE2对稀有鮈鲫和斑马鱼幼鱼体内卵黄蛋白原诱导的比较

利用卵黄蛋白原(Vtg)作为类雌激素污染的生物标志物,比较研究了不同浓度的17α-乙炔基雌二醇(EE2)对斑 马鱼(Brachydanio rerio)和稀有鮈鲫(Gobiocypris rarus)幼鱼体内Vtg的诱导。研究结果表明:5ng/L,20ng/L和100ng/L EE2分别暴露5d后,稀有鮈鲫幼鱼体内的Vtg即可显著诱导,并且其含量随暴露时间的增加而增加,在暴露15d时 达到最大值;而斑马鱼幼鱼虽然100ng/LEE2暴露5d时可显著诱导体内Vtg的生成,但20ng/L EE2在暴露10d后

底泥中微囊藻复苏和生长特性的研究

研究了微囊藻群体从底泥中释放进入水体的过程及这一过程与水体温度、光照及营养盐的关系 ,并比较了底泥和水体中微囊藻群体的生长特性。同时 ,比较了温度对经低温 (4℃ )处理的和处于对数期的Microcystis.sp .94 0的叶绿素荧光强度的影响。结果表明 ,在 15℃ ,30 μEm-2 s-1光照条件下 ,底泥中的微囊藻群体复苏开始启动 ,并于15d后开始上升到水体中。研究表明 ,存在于底泥中的微囊藻群体从底泥中迁移至上层水体的最适条件为 2 0℃ ,30 μEm-2 s-1。分别培养底泥微囊藻群体

枣芽象甲的综合防治

近年来红枣发展迅速,陕西、山西黄河沿岸红枣栽培面积达30万hm2。随着红枣栽培面积扩大,枣芽象甲(Scythropus yasumatsui)在陕西省佳县和山西省柳林县、稷山县等地危害严重。枣芽象甲属鞘翅目象甲科,又名食芽象甲、枣飞象、枣月象、小灰象甲等,分布于陕西、山西、河南、河北、山东、辽宁等地,危害红枣、苹果、核桃等多种果树。枣芽象甲成虫早春上树危害嫩芽、幼叶,严重时可将枣树嫩芽吃光,造成二次萌芽,削弱树势,推迟生育,严重降低红枣产量和品质。1形态特征枣芽象甲一生经过卵、幼虫、蛹、成虫四种形态。成虫:雄虫体长4.5~5.5mm,深灰色。雌虫体长约4.3~5.5mm,土灰色。头管粗短,末端宽,背面两复眼之间凹陷,前胸背面中间色较深,呈棕灰色。鞘翅弧形,每侧各有细纵沟10条,两沟之间有黑色鳞毛,鞘翅背面有模糊的褐色晕斑。腹面银灰色。卵:长椭圆形,堆生,初产时乳白色,后变棕色。幼虫:乳白色,体长5mm,略弯曲,无足。蛹:4.0~5.0mm,纺锤形,初乳白色,近羽化时红褐色。2生活习性1a(年)发生1代,以幼虫在土壤中越冬。春季3月下旬至4月上旬化蛹,蛹期12~15d(天)。4月中下旬当枣树萌芽时成虫出土,群集...

稀土离子4f~(N-1)n'1'高激发态能级的研究

本论文系统地研究了稀土离子的4fN-1n'l'高激发组态能级问题。利用稀土光谱理论，推导了自由离子状态下的高激发组态4fN-1n'l'的能级表达式（包括电子的库仑和旋轨作用），编写了计算机程序，首次得到了660项4fN-1n'l'（n'l'=5d，6s，6p）组态主要较低能级的详细表达式，大大扩展了以往的计算结果。同时，具备了计算4fN-1n'l'组态的全部能级表达式的能力。利用复杂晶体的化学键介电理论，研究了基质中fN-15d组态能级移动和劈裂等问题，获得了如下创新性的成果：研究了晶体中稀土离子的4fN-15d组态的禁戒跃迁能级与允许跃迁能级之间的能级差变化现象。发现fd电子间库仑作用的交换积分项是能级差的主要作用并找到了在不同基质中影响能级差发生变化的因子：he＝[Σfc（i）a（i）Q（i）2]1/2，可用来分析、确定和预测Dy3+，Tb3+在不同基质中的禁戒跃迁峰的能级位置，对其它稀土离子也具有一定的指导意义。通过对自由离子能级差问题的分析，发现对不同稀土离子，能级差随f电子的增加而减小的规律，这样，无论是从横向还是纵向都可以对稀土离子的能级差进行比较，相互确定。为分析光谱中的禁戒跃迁峰提供了理论依据。研究了晶体中Ce3+、Eu2+的4fN-15d组态能级中心下移现象，发现影响其发生变化的因素与能级差的相同，但两者具有不同的变化形式，前者与玩呈一级指数关系，后者与he呈线性关系。从指数关系式中推导得到的自由离子状态下能级中心位置与实验值吻合较好。当he趋向于极大值时，得到的Ce3+、Ey2+的4fN-15d组态能级中心极限值相应于离子所含电子动能的大小。研究了晶体中Ce3+、Eu2+的4fN-15d组态能级劈裂问题，结合实验结果，发现立方场下的能级劈裂与化学键的同极化作用能，中心离子的配位数，配体离子的有效电荷以及所成键的离子性相关，并具此得到一个劈裂因子参数：Fc＝EhQfi/NFc与10Dq值呈现很好的线性关系。研究结果表明，无论是4fN-15d组态的能级劈裂还是能级中心下降问题，Ce3+、Eu2+两离子都可以表达成统一的形式，显示了环境因子he与劈裂因子Fc所具有的普适性，对其它稀土离子的4fN-1n'l，高激发组态能级同样也具有理论指导意义。

小麦抗禾谷孢囊线虫（ Heterodera avenae）相关基因的研究

禾谷孢囊线虫严重影响禾谷类作物的产量，在小麦中由禾谷孢囊线虫引起的产量损失可达30-100%。尤其在澳大利亚、欧洲、印度和中东危害严重，目前禾谷孢囊线虫已成为危害我国作物的主要病源。控制禾谷孢囊线虫的方法主要有：作物轮作、杀线虫剂、寄主抗性等等，其中基因工程方法培育抗线虫小麦品种被认为是最经济有效的方法。分离抗禾谷类孢囊线虫基因对揭示抗性基因结构与功能及其表达调控具有重要意义。 尽管小麦是重要的粮食作物，在小麦中已发现的抗禾谷孢囊线虫的基因很少，而比其近缘属如节节麦、易变山羊草、偏凸山羊草中含有丰富的抗源。目前已鉴定出禾谷孢囊线虫抗性位点Cre，并发现了9个禾谷孢囊线虫抗性基因(Cre1,2, 3, 4, 5, 6, 7, 8, and R) ，其中只有Cre1和Cre8直接从普通小麦中获得。从节节麦中获得的Cre3基因能最有效的控制线虫数量，其次是Cre1和Cre8。这些基因的克隆对于了解禾谷孢囊线虫抗性机制及进一步的育种应用都是非常关键的。然而，目前为止仅有Cre3基因通过图位克隆的方法从节节麦中被分离得到。该基因已被克隆得到的多数线虫抗性基因一样均属于核苷酸结合位点区（NBS）－亮氨酸重复序列区（LRR）基因家族。目前，已有很多抗性基因被分离，这些已知的NBS-LRR类抗性基因的保守序列为应用PCR的方法克隆新的抗性基因提供了可能。 因此本课题的目的是采用保守区同源克隆、3′RACE 和5′RACE 等方法从抗禾谷孢囊线虫小麦-易变山羊草小片段易位系E10 中克隆小麦抗禾谷孢囊线虫基因全序列，进而通过半定量PCR 和荧光定量PCR 研究该基因的表达模式。同时通过mRNA 差别显示技术和任意引物PCR（RAP-PCR）技术分离克隆植物禾谷孢囊线虫抗性基因及其相关基因，为阐明植物抗病性分子机制以及改良作物抗病性和作物育种提供基础，为通过分子标记辅助育种和基因工程方法实现高效、定向转移抗病基因到优良小麦品种奠定了重要的理论和物质基础。主要研究结果： 1． 本实验根据此前从抗禾谷孢囊线虫材料E-10 扩增得到的与来自节节麦的抗禾谷孢囊线虫Cre3 基因及其他的NBS-LRR 类抗性基因的NBS 和LRR 保守区序列设计了两对特异性引物，从E10 中扩增到532bp 和1175bp 的两个目标条带，它们有一个32bp 的共同序列，连接构成总长为1675bp 的NBS-LRR 编码区（命名为RCCN）。根据RCCN设计引物，利用NBS-LRR区序列设计引物，通过5′RACE 和3′RACE 技术采用3′-Full RACE Core Set(TaKaRa)和5'-Full RACE Kit (TaKaRa)试剂盒，反转录后通过嵌套引物GSP1 和GSP2 分别进行两轮基因特异性扩增，分别将NBS_LRR 区向5′端和3′端延伸了1173bp 和449bp，并包含了起始密码子和终止密码子。根据拼接的得到的序列重新设计引物扩增进行全基因扩增的结果与上面获得的一致。拼接后得到全长2775 bp 的基因序列（记作CreZ, GenBank 号：EU327996）。CreZ 基因包括完整的开放阅读框，全长2775 bp，编码924个氨基酸。序列分析表明它与已知的禾谷孢囊线虫抗性基因Cre3的一致性很高，并且它与已经报到的NBS-LRR 类疾病抗性基因有着相同的保守结构域。推测CreZ基因可能是一个新的NBS-LRR 类禾谷孢囊线虫抗性基因，该基因的获得为通过基因工程途径培育抗禾谷孢囊线虫小麦新品种奠定了基础，并为抗禾谷孢囊线虫基因的调控表达研究提供了参考。 2． 通过半定量PCR和SYBR Green荧光定量PCR技术对CreZ基因的相对表达模式进行了研究。以α-tubulin 2作为参照，采用半定量PCR 分析CreZ 基因在不同接种时期1d, 5d, 10, 15d 的E-10的根和叶的的表达情况。在内参扩增一致的条件下，CreZ 在E-10的根部随着侵染时间的增加表达量有明显的增加，在没有侵染的E-10的根部其表达量没有明显变化，而在叶中没有检测表达，说明该基因只在抗性材料的根部表达。SYBR Green定量PCR分析接种前后E10根部基因CreZ基因的表达水平为检测CreZ基因的表达建立了一套灵敏、可靠的SYBRGreen I 荧光定量PCR 检测方法。接种禾谷孢囊线虫后E10根内CreZ基因的相对表达水平显著高于接种前。随接种时间的延长持续增加，最终CreZ基因的相对表达量达到未接种的对照植株的10.95倍。小麦禾谷孢囊线虫抗性基因CreZ的表达量与胁迫呈正相关，表明其与小麦的的禾谷孢囊线虫抗性密切相关，推测CreZ基因可能是一个新的禾谷孢囊线虫候选抗性基因。 3． 针对小麦基因组庞大、重复序列较多，禾谷孢囊线虫抗性基因及其相关基因的片断难以有效克隆的问题，通过mRNA 差别显示技术及RAP-PCR 技术分离克隆植物禾谷孢囊线虫抗性及其相关基因。试验最终得到154 条差异表达条带，将回收得到的差异条带的二次PCR 扩增产物经纯化后点到带正电的尼龙膜上，进行反向Northern 杂交筛选，最终筛选得到102 个阳性差异点。将其中81 个进行测序，并将序列提交到Genbank 中的dbEST 数据库，分别获得登录号(FE192210 -FE192265，FE193048- FE193074 )。序列比对分析发现，其中26 个序列与已知功能的基因序列同源；有28 条EST 序列在已有核酸数据库中未找到同源已知基因和EST，属新的ESTs 序列；另外27 个EST 序列与已知核酸数据库中的ESTs 具有一定相似性，但功能未知。其所得ESTs 序列补充了Genbank ESTs 数据库，为今后进一步开展抗禾谷类孢囊线虫基因研究工作打下了基础。结合本试验功能基因的相关信息，对小麦接种禾谷孢囊线虫后产生的抗性机制进行了探讨。接种禾谷孢囊线虫后植物在mRNA 水平上的应答是相当复杂的，同时植物的抗病机制是一个复杂的过程，涉及到多个代谢途径的相互作用。 The cereal cyst nematode (CCN), Heterodera avenae Woll, causes severe yieldreductions in cereal crops. The losses caused by CCN can be up to 30-100% in somewheat fields. At present, cereal cyst nematode has become the major disease sourcein China and it also damaged heavily in Australia, Europe, India and Middle East.The damage caused by CCN can be mitigated through several methods, includingcrop rotation, nematicide application, cultural practice, host resistance, and others.Of these methods, incorporating resistance genes into wheat cultivars and breedingresistant lines is considered to be the most cost-effective control measure forreducing nematode populations. Although wheat is an economically important crop around the world, far fewergenes resistant to CCN were found in wheat than were detected in its relatives, suchas Aegilops taucchi, Aegilops variabilis and Aegilops ventricosa. Cloning these genesis essential for understanding the mechanism of this resistance and for furtherapplication in breeding. Because of the huge genome and high repeat sequencescontent, the efficient methods to clone genes from cereal crops, are still lacking. A resistance locus, Cre, has been identified and 9 genes resistant to CCN (designatedCre1, 2, 3, 4, 5, 6, 7, 8, and R) have been described, in which Cre1 and Cre8 werederived directly from common wheat. The Cre3 locus, which was derived from Ae.tauschii, has the greatest impact on reducing the number of female cysts, followed byCre1 and Cre8. Cloning these genes is essential for understanding the mechanism ofthis resistance and for further application in breeding. However, to this point, only Cre3, a NBS-LRR disease resistance gene, has been obtained through mappingcloning in Ae. tauschii. The majority of nematode resistance genes cloned so far belong to a super familywhich contains highly conserved nucleotide-binding sites (NBS) and leucine-richrepeat (LRR) domains. To date, many NBS-LRR resistance genes have been isolated.The conserved sequences of these recognized NBS-LRR resistance genes provide thepossibility to isolate novel resistance genes using a PCR-based strategy. The aim of the present study was to clone the resistance gene of CCN fromWheat/Aegilops variabilis small fragment chromosome translocation line E10 whichis resistant to CCN and investigate the espression profiles of this gene withsemi-quantitative PCR and real-time PCR. Another purpose of this study is cloningthe relational resistance gene for CCN by mRNA differential display PCR andRAP-PCR. These works will offer a foundation for disease defence of crop andbreeding and directional transferring resistance gene into wheat with geneengineering. Primary results as following: 1．According to the conversed motif of NBS and LRR region of cereal cystnematode resistance gene Cre3 from wild wheat (Triticum tauschlii) and the knownNBS-LRR group resistance genes, we designed two pairs of specific primers for NBSand LRR region respectively. One band of approximately 530bp was amplified usingthe specific primers for conversed NBS region and one band of approximately 1175bpwas amplified with the specific primers for conversed LRR region. After sequencing,we found that these two sequences included 32bp common nucleotide having 1675bpin total, which was registered as RCCN in the Genbank. Based on the conservedregions of known resistance genes, a NBS-LRR type CCN resistance gene analog wasisolated from the CCN resistant line E-10 of the wheat near isogenic lines (NILs), by5′RACE and 3′ RACE.designated as CreZ (GenBank accession number: EU327996) .It contained a comlete ORF of 2775 bp and encoded 924 amino acids. Sequencecomparison indicated that it shared 92% nucleotide and 87% amino acid identitieswith those of the known CCN-resistance gene Cre3 and it had the same characteristic of the conserved motifs as other established NBS-LRR disease resistance genes. 2． Usingα-tubulin 2 as exoteric reference, semi-quantitative PCR and real-timePCR analysis were conducted. The expression profiling of CreZ indicated that it wasspecifically expressed in the roots of resistant plants and its relative expression levelincreased sharply when the plants were inoculated with cereal cyst nematodes. therelative expression level of the 15days-infected E10 is the 10.95 times as that ofuninfected E10,ultimately. It was inferred that the CreZ gene be a novel potentialresistance gene to CCN. 3．We cloned the relational resistance gene for CCN by mRNA differentialdisplay PCR and arbitrarily primed PCR fingerprinting of RNA from wheat whichpossess huge and high repeat sequence content genomes. Total 154 differentialexpression bands were separated and second amplified by PCR. The products werenylon membrane. The 102 positive clones were filtrated by reverse northern dot blotand 81 of those were sent to sequence. The EST sequences were submitted toGenbank (Genbank accession: FE192210 - FE192265, FE193048 - FE193074). Thesequences alignment analysis indicated 26 of them were identical with known genes;28 were not found identical sequence in nucleic acid database; another 27 ests wereidentical with some known ests, but their functions were not clear. These ESTsenriched Genbank ESTs database and offered foundation for further research ofresistance gene of CCN.

组合白腐真菌预处理木质纤维素原料的研究

木质纤维素原料种类多、分布广、数量巨大，通过燃料乙醇生产技术、厌氧沼气发酵技术将其转化成乙醇、沼气等二次能源，一定程度上可以缓解化石能源的不断消耗所带来的能源危机，也解决了农林废弃物引起的环境污染问题。其中以木质纤维素原料生产燃料乙醇，还可以避免以淀粉类和糖类原料生产燃料乙醇时带来的“与人争粮”等一系列问题。因此具有重要的经济效益、环境效益和社会效益。 然而，木质纤维素原料结构致密，木质素包裹在纤维素、半纤维素外围，导致其很难被降解利用，必须进行适当的预处理，去除木质素，打破原有的致密结构，利于原料的后续利用。因此，预处理成为木质纤维素原料能源化利用的关键。而目前预处理环节的费用过于昂贵，于是寻找一种高效、低成本的预处理方法是当今研究的热点。 本论文采用组合白腐真菌对木质纤维素原料进行生物预处理研究，与其他物理化学法相比，该法有着专一性较强、反应温和、不造成环境污染、成本低等优势。白腐真菌主要通过分泌木质素降解酶对木质素进行降解，从而破坏原料的致密结构，提高后续利用效率。所以木质素降解酶酶活的高低是影响原料预处理效果的一个关键因素。于是本论文首先通过将白腐真菌进行组合的方式提高木质素降解酶（漆酶，Lac）酶活；接着对组合菌的菌株相互作用机理进行研究，阐明组合菌Lac 酶活提高的原因，为菌株组合提高Lac 酶活这种方法的应用提供理论依据，同时也为后续组合白腐真菌预处理木质纤维素原料提供指导；进一步采用固态发酵和木质素降解酶两种方式对木质纤维素原料进行预处理研究，最大化去除木质素成分，破坏原料的致密结构；最终对预处理后原料的酶解糖化进行初步研究，为原料后续的能源化应用奠定基础。具体研究结果如下： （1） 以实验室保存的三株主要分泌Lac 的白腐真菌为出发菌株，筛选得到一组Lac 酶活明显提高的组合菌55+m-6，其中菌株55 为Trametes trogii sp.，m-6 为Trametes versicolor sp.，组合后Lac 酶活较单菌株分别提高24.13倍和4.07 倍。组合菌的最适产酶条件为pH 6.5、C/N 16:1、Tween 80 添加量为0.01%，在该条件下组合菌的Lac 酶活峰值比未优化时提高4.11倍。 （2） 对组合菌55+m-6 菌株间相互作用机理进行研究，发现菌株之间不存在抑制作用；平板培养时，菌丝交界处Lac 酶活最高并分泌棕色色素；液体培养时，菌株m-6 对组合后Lac 酶活的提高起着更为重要的作用：菌株m-6的菌块、过滤灭菌胞外物以及高温灭菌胞外物均能明显刺激菌株55 的Lac产生；菌株55、m-6 进行组合后，同工酶种类未发生增减，但有三种Lac同工酶浓度有所提高；对菌株胞外物进行薄层层析和质谱分析，结果表明组合前后菌株胞外物中各物质在浓度上存在较大的变化。推测组合菌Lac酶活的明显提高，主要是由于菌株m-6 胞外物中的一些物质能刺激菌株55 分泌大量Lac 进行代谢，且这些刺激物质并非菌株m-6 特有，菌株55自身也可以代谢生成，但是适当的浓度才能刺激Lac 的大量分泌。 （3） 将组合菌55+m-6 用于固态发酵预处理木质纤维素原料，发现其对玉米秆的降解程度最大，在粉碎度40 目、含水率65%的最优处理条件下，处理至第15d，秸秆失重率为41.24%，其中木质素、纤维素、半纤维素均有降解，且Lac 和纤维素酶（CMC）酶活以及还原糖量均达到峰值。 （4） 对玉米秆进行木质素降解酶预处理，发现Lac/1-羟基苯并三唑（HBT）系统对玉米秆木质素的降解效果最好，在最优处理条件时，即HBT 用量0.2%、处理时间1d、Lac 用量50U/g，木质素降解率可达12.60%。预处理后玉米秆的致密结构被破坏，比表面积增大，利于后续酶与纤维素、半纤维素成分的结合。 （5） 对预处理后的玉米秆进行酶解糖化，其中组合菌固态发酵预处理后玉米秆的糖化率比对照高4.33 倍；Lac/HBT 系统预处理后玉米秆的糖化率比对照高2.99％，糖化液中主要含有木糖、葡萄糖两种单糖。 There are many kinds and large quantities of lignocellulosic biomass widely distributed on the earth. They can be converted into secondary energy such as fuel ethanol, biogas, et al., which can relieve the energy crisis caused by consumption of fossil energy resources and solve the problem of environmental pollution caused by agriculture and forestry waste. Meanwhile, the production of fuel ethanol from lignocellulosic biomass can ensure food supply to human kind instead of starch- and sugar-containing raw materials. So the energy conversion of lignocellulosic biomass contributes considerable economic, environment and social benefits. However, lignocellulosic biomass has the compact structure, in which lignin surrounds cellulose and hemicellulose, so it must be pretreated before energy usage and pretreatment is one of the most critical steps in the energy conversion of lignocellulosic biomass. At present, the cost of pretreatment is too expensive, so looking for an efficient and low-cost pre-treatment method is one of recent research hot spots. In this research, combined white rot fungi pretreatment method was used, which had some advantages in low cost, high specificity, mild reacting conditions and friendly environmental effects compared with the other physical and chemical methods. White rot fungi secrete lignin degrading enzymes to degrade the content of lignin and damage the contact structure of lignocellulosic biomass, so the activity of the lignin degrading enzymes is the key factor to the degradation effect of raw materials. Firstly, the combined fungi with high laccase activity were screened; secondly, the interaction mechanism between strains was studied, and the cause of higher laccase activity after strains combination was also preliminary clarified; under the guidance of the mechanism, lignocellulosic biomass was pretreated by the combined fungi; lastly, the enzymatic hydrolysis of pretreated lignocellulosic biomass was also preliminary studied; all of the researches could lay the foundation for the energy application of lignocellulosic biomass. The specific research results were as follows: (1) The combined fungi 55+m-6 with significant higher laccase activity were screened from the three white rot fungi stored in our lab which mainly secreted laccase. Strain 55 and strain m-6 were Trametes trogii sp. and Trametes versicolor sp., respectively. The laccase activity of combined fungi was 24.13 and 4.07-fold than strain 55 and strain m-6, respectively. The optimized condition for laccase production of the combined fungi in liquid medium was pH 6.5, C/N 16:1 and Tween 80 0.01%. In this optimized condition, the laccase activity of combined fungi was 4.11-fold higher comparing with which in non-optimized medium. (2) The interaction mechanism between strain 55 and strain m-6 was further studied, and no inhibition effect was observed. Brown pigment was secreted on the junction of the two strains on the plate, where the highest laccase activity was detected. Strain m-6 was much important to boost laccase activity of combined fungi in liquid medium, and strain 55 was stimulated by fungal plug, filter sterilized extracellular substances and high temperature sterilized extracellular substances of strain m-6 to produce laccase. The types of laccase isozymes did not change after combining strain 55 and strain m-6, but the concentrations of three types increased. Mass Spectrometry and TLC analysis of extracellular substances of each strain showed that concentration of some substances considerably changed after strains were combined. It was supposed that the cause of higher laccase activity of combined fungi was mainly due to some extracellular substances of strain m-6 with the appropriate concentration which stimulated laccase secretion of strain 55 and generated not only by strain m-6 but also by strain 55. (3) Combined fungi 55+m-6 were used to lignocellulosic biomass pretreatment with the type of solid-state fermentation. The highest degree of degradation of corn straw was obtained, including the rate of weight loss was 41.24% and the lignin, cellulose and hemicellulose were degraded partially under the optimized condition of 40 mesh, 65% water content on 15th day. Laccase, CMCase activities and content of reducing sugar reached the maximum value on that day. (4) Lignin degrading enzymes from combined fungi 55+m-6 were used for corn straw pretreatment. The most remarkable degradation of lignin in corn straw with Lac/1-hydroxybenzotriazole (HBT) system was observed, and the 12.60% lignin degradation was obtained under the optimized condition of 0.2% HBT, 50 U/g laccase for 1 d. After pretreated by Lac/HBT, the tight structure of corn straw was demolished and specific surface area increased, which had advantages for accessible of enzyme to cellulose and hemicellulose. (5) The corn straws pretreated by combined fungi 55+m-6 with the type of solid-state fermentation and Lac/HBT were used for enzymatic hydrolysis, and the saccharification rates of each pretreatment type were 4.33 times and 2.99% higher than CK, respectively. The enzymatic hydrolysis liquid of corn straw pretreated by Lac/HBT mainly contained xylose and glucose.

重离子辐照对干旱胁迫下甜高粱幼苗的影响

<正>不同剂量(0Gy,40Gy,80Gy)碳离子辐照甜高粱(Sorghum bicolor(L)Moench)干种子后,水培7天时测定发芽率。在温度25℃/18℃,光照12h/12h条件下培养15d后,

除草剂阿特拉津对大白鼠血清中雌二醇(E_2)浓度的影响

SD大白鼠120只 ,随机分成4组 ,3个处理组 ,1个对照组 ,分别按每千克体重200mg,100mg,10mg,0mg阿特拉津灌胃 ,并于喂药15d和30d采样测定大白鼠血清中雌二醇的含量。结果表明 ,除草剂阿特拉津对雌性和雄性大白鼠血清中雌二醇的含量均有影响。阿特拉津对雄性大白鼠雌二醇的含量的影响出现较早 ,说明雄性动物对阿特拉津的作用较为敏感 ;阿特拉津可使雌性大白鼠血清中雌二醇含量增加 ,虽然这种现象出现较晚 ,但各组差异较大 ,尤其是对照组和剂量组之间 ,差异极显著(p<0.01)。血液中雌激素含量的变化直接影响到成鼠的生殖功能及雄鼠的性征变化。由此推测 ,体内因富集阿特拉津所导致血清中雌二醇浓度变化的大白鼠可能出现一定的生殖缺陷 ,以致影响到种族的繁衍。

丁香花粉生命力及贮藏力的研究

针对丁香杂交育种的花期不遇和远距离杂交困难的问题 ,以7种丁香为试材 ,分别进行了新鲜花粉生命力测定比较、不同贮藏条件对花粉生命力的影响以及不同种丁香花粉贮藏力的差异研究。结果表明 :红丁香的花粉生命力最高 ,可达81.5 % ;小叶丁香的花粉贮藏力最强 ,低温冷藏可达60d以上 ;丁香花粉最适的贮藏温度为0～2℃低温条件 ,在此温度下花粉生命力都能延长到15d以上 ;常温下丁香花粉生命力迅速丧失 ,5d后就已全部接近死亡。用花粉生命力和贮藏力高的丁香品种作父本 ,可提高杂交的成功率

东北黑土在不同处理条件下微生物量与菌群多样性的变化

在实验室条件下通过添加尿素(U)、尿素+葡萄糖(U+G)、尿素+秸秆(U+S)的培养试验,结合常规的分析手段和磷脂脂肪酸(PLFA)技术,初步研究了不同处理条件下东北黑土物理化学特性及生物学特性的变化。结果表明,添加U或U+G的处理,微生物量提高很快(5~15d时),但下降也很快。添加U+S处理,微生物群落变化很快,特别是革兰氏阴性菌迅速升高(5~10d时),而且微生物量可以保持两个月之久。以上结果说明化肥配施秸秆具有良好的土壤综合效应。

科尔沁草甸草地归一化植被指数与气象因子的关系

利用内蒙古科左后旗草甸草地2000—2006年MODIS的8d合成归一化植被指数(NDVI)资料和逐日气象资料,分析了研究区NDVI的季节变化和年际变化特点以及NDVI与气象因子的关系.结果表明:季节变化过程中,研究区水汽压与NDVI的相关程度明显大于降水量;积温和累积降水量共同控制着各年草地的返青速度,草地增长期(6、7月)的降水量对NDVI年最大值的影响比年总降水量更显著;时滞分析表明,水汽压对之后约12d的NDVI有持续的显著影响,平均气温的时滞为11～15d,降水量对NDVI影响的累积时滞双重效应可达36～52d.