基于地统计学的新疆棉田烟粉虱(Bemisia tabaci (Gennadius))危害动态与时空分布

应用地统计学(GS)的原理与方法研究了外来入侵有害生物烟粉虱(Bemisia tabaci (Gennadius))为害新疆棉田的时空动态,并与经典统计学进行对比分析.两种方法一致表明,烟粉虱成虫在空间上呈聚集分布的格局,而各时期成虫的聚集程度依据空间变异随机程度所占的比例不同而不同.经频次分布检验,以零频率法参数拟合的负二项分布来表达其空间分布型最为合适.运用GS的分析方法,进一步得到种群分布面积变化与扩散的趋势,并依此对昆虫种群的扩散模型进行模拟.棉田烟粉虱成虫在田间7～8月份均存在一定的空间相关性,随机程度为19.22%～49.99%;空间相关距离(相关程)在一个月内从32m急速增至6372m,随后在2000～3000m的范围波动.从整个发生过程看出,烟粉虱从越冬场所顺风侵入大田后,迁飞扩散在很大程度上受风向的影响,属于典型的借助风力扩散的昆虫,其在棉田的垂直分布则与吐鲁番地区独特的暖温带大陆性干旱荒漠气候特征有关.顺风扩散时多从棉株上部叶片开始危害, 而逆风扩散时从棉株中、下部叶片危害.烟粉虱在棉株上建立稳定种群后,中、下部虫口密度要略高于上部, 这是烟粉虱对吐鲁番地区特殊气候的适应.     

温度对茶尺蠖核型多角体病毒增殖动态的影响

多角体计数、对流免疫电泳、单向免疫扩散及火箭免疫电泳测定的结果表明:26℃适于茶尺蠖核型多角体病毒(EoNPV)的增殖。多角体含量或其相对值随着时间的推移而增长,并渐趋于平稳,两者间呈Logistic曲线关系。单位体重或单头幼虫所含的多角体数量(y_1或y_2)、扩散环直径(y_3)和火箭峰值(y_4)与时间(t)的关系式分别为:y_1=(8.1481)/(1 EXP(9.4210-0.0608t))×10~9PIB/克;y_2=(6.1596)/(1 EXP(5.4809-0.0376t))×10~8PIB/头,y_3=(1.4)/(1 EXP(2.710-0.015t))cm;y_4=(3.52)/(1 EXP(4.580-0.040t))cm。但30℃下,EoNPV增殖严重受抑制,饲毒后24～168小时内难以测出多角体,其后多角体含量也极显著低于26℃,乃至难以被三种免疫测定法测出。     

梁子湖湿地植物的氮磷积累特征

采用野外测定结合室内分析的方法,探讨了梁子湖湿地植物对氮磷的积累特征。结果表明,湿地不同植物种类对氮磷的积累特征明显不同。浮游植物积累各种营养物质量最多,其体内全氮量平均为29.07g.kg-1,全磷量平均为9.53g.kg-1。梁子湖湿地各类植物氮磷含量的大小依次为浮游植物>浮叶植物>沉水植物>水稻>挺水植物。各类植物中氮磷积累的大小依次为浮叶植物>挺水植物>沉水植物>沼泽植物>水稻。梁子湖湿地水生植物氮磷营养元素的吸收系数大于湿生植物,各类植物氮元素的吸收系数均大于磷。     

Nitrogen economy of alpine plants on the north Tibetan Plateau: Nitrogen conservation by resorption rather than open sources through biological symbiotic fixation

Nitrogen (N) is one of the most important factors limiting plant productivity, and N fixation by legume species is an important source of N input into ecosystems. Meanwhile, N resorption from senescent plant tissues conserves nutrients taken up in the current season, which may alleviate ecosystem N limitation. N fixation was assessed by the ¹⁵N dilution technique in four types of alpine grasslands along the precipitation and soil nutrient gradients. The N resorption efficiency (NRE) was also measured in these alpine grasslands. The aboveground biomass in the alpine meadow was 4–6 times higher than in the alpine meadow steppe, alpine steppe, and alpine desert steppe. However, the proportion of legume species to community biomass in the alpine steppe and the alpine desert steppe was significantly higher than the proportion in the alpine meadow. N fixation by the legume plants in the alpine meadow was 0.236 g N/m², which was significantly higher than N fixation in other alpine grasslands (0.041 to 0.089 g N/m²). The NRE in the alpine meadows was lower than in the other three alpine grasslands. Both the aboveground biomass and N fixation of the legume plants showed decreasing trends with the decline of precipitation and soil N gradients from east to west, while the NRE of alpine plants showed increasing trends along the gradients, which indicates that alpine plants enhance the NRE to adapt to the increasing droughts and nutrient‐poor environments. The opposite trends of N fixation and NRE along the precipitation and soil nutrient gradients indicate that alpine plants adapt to precipitation and soil nutrient limitation by promoting NRE (conservative nutrient use by alpine plants) rather than biological N fixation (open sources by legume plants) on the north Tibetan Plateau.     

Organic matter and nitrogen accumulation and nitrogen fixation during early ecosystem development in Hawaii

We used a chronosequence comprised of 10 y, 52 y and 142 yold `a'a lava flows on Mauna Loa, Hawaii, to determine theaccumulation of organic matter and nitrogen and rates of nitrogenfixation through time. The mass of organic matter (live and deadbiomass and soil organic matter) on the 1984, 1942 and 1852 lavaflows was 0.6, 2.2 and 7.6 kg m^{– 2}, respectively, while total N was 4.8, 10.9 and 85.7 g m^{– 2}.We estimated the total rates of nitrogen fixation for thethree different aged ecosystems using an acetylene reduction assaycalibrated with ¹⁵N incubations. While mean rates of total N fixation remained largely constant across the three sites – between2.0 and 3.1 kg ha^{– 1} y^{– 1} – the most important sources of N fixation changed. On the 10 y flow, the most important fixer was the pioneering cyanolichen, Stereocaulon vulcani. After 52 years ofecosystem development, the most important N fixer was a cyanoalga,while after 142 years, the predominant N fixers were heterotrophicbacteria associated with leaf litter, twigs and detritus. The totalamount of N accumulated after 52 years of ecosystem development wasequivalent to cumulative inputs through biological N fixation. After 142 years, however, cumulative inputs from N fixation couldonly account for between 27–59% of the total nitrogen accrued.We used fertilizer additions of all essential nutrients otherthan N to test whether the availability of lithophilic nutrientsregulated rates of N fixation in early ecosystem development. Ratesof nitrogen fixation by the lichen, S. vulcani, approximately doubled when fertilized on the 1984 and 1942 flows. Rates of N-fixation by heterotrophic nitrogen fixing bacteria on leaf litter ofMetrosideros polymorpha also increased significantly when fertilized with lithophilic nutrients. These findings suggest that weathering rates of lava in part regulate rates of nitrogen fixation in these young ecosystems.     

长白山阔叶红松林土壤水分动态研究

在1990～1992年和2003年对长白山阔叶红松林土壤水分动态进行定位观测研究.结果表明,土壤水分年内变化可划分为5个时期：春季聚水阶段、旱季耗水阶段、雨季蓄墒阶段、秋季失墒阶段和冬春土壤水分相对稳定阶段.利用标准差和变异系数对土壤水分垂直变化进行分层,得出土壤水分剖面分布分为速变层、活跃层和次活跃层,并用相关分析方法分析了各层次间土壤水分及其与其间降水量的关系.     

崇明东滩自然保护区盐沼植被的时空动态

盐沼植被是滩涂湿地的重要组成部分,其动态变化直接影响着湿地的生态服务功能和价值。通过对1998~2005年间4景不同时相的LandsatTM遥感影像的解译分析,结合历史资料数据和近年来的现场调查,分析了崇明东滩鸟类自然保护区自建立以来,盐沼植被的时空演替动态过程。结果显示,随着滩涂的淤涨,东滩盐沼植被的面积从1998年的2478.32hm2增加到2005年的4687.74hm2,而互花米草(Spartina alterniflora)自人为引入至2005年,其面积已增加到1283.4hm2,其增加速率显著高于土著种芦苇(Phragmites australis)和海三棱藨草(Scirpus mariqueter),并且已在东滩保护区相当区域内形成单优势种群落。受1998年和2001年两次高滩围垦和互花米草入侵影响,崇明东滩的芦苇群落面积大大减少,虽随着滩涂的淤涨,芦苇群落的面积逐年有所增加,但增加的速度缓慢。互花米草有着更广的生态幅和竞争优势,是滩涂中扩散最快的植被,而淤涨型滩涂为其提供了可扩张的空生态位,如不加以控制和治理,其快速扩散将会对崇明东滩保护区的生态系统造成更大的威胁和影响。     

两个单点突变对昆虫羧酸酯酶降解马拉硫磷的影响

马拉硫磷是一种高效低毒的有机磷杀虫剂, 分子量大且结构特殊, 广泛用于农业害虫的防治。羧酸酯酶突变是昆虫对有机磷类杀虫剂产生代谢抗性的重要机制之一。本实验室前期已从棉蚜Aphis gossypii、 褐飞虱Nilaparvata lugens、 斜纹夜蛾Spodoptera litura、 家蚕Bombyx mori、 异色瓢虫Harmonia axyridis、 赤拟谷盗Tribolium castaneum和西方蜜蜂Apis mellifera中各克隆了一个非特异性羧酸酯酶基因, 通过体外定点突变构建了G/A151D和W271L两种突变体, 并进行了原核细胞表达和纯化。本实验在体外测定了这7种昆虫野生型和两种突变型羧酸酯酶对马拉硫磷的降解。结果显示： 棉蚜、 西方蜜蜂、 斜纹夜蛾、 赤拟谷盗的野生型羧酸酯酶能够降解马拉硫磷, 两个突变并不能提高它们的降解活性, 而家蚕、 异色瓢虫和褐飞虱的野生型羧酸酯酶不能降解马拉硫磷, G/A151D和/或W271L突变能使这些酯酶获得马拉硫磷羧酸酯酶（MCE）的活性, 有可能使这些昆虫对马拉硫磷产生抗性。不同物种的MCE活性相差较大, 斜纹夜蛾的MCE活性最高, 其k_cat/K_m值为1.8~1.9 L/μmol·min, 其次是赤拟谷盗, 其K_cat/K_m值为0.87~0.95 L/μmol·min, 其他昆虫的MCE活性相对较低, 相差可高达10倍。     

根域限制下水氮供应对膜下滴灌棉花叶片光合生理特性的影响

在新疆气候生态条件下,采用管栽方法,选用棉花新陆早13号和新陆早33号2个品种为供试材料,通过人工限制根系垂直生长深度和水氮供应,测定棉花叶片气体交换和叶绿素荧光参数、光合物质积累等,探讨根域限制及水氮供应对棉花光合生理特性及产量形成的影响。结果表明:与对照相比,相同水氮供应条件下,根域限制处理棉花从开花期至盛絮期叶片净光合速率(Pn)、气孔导度(Gs)和光化学猝灭系数(qp)显著降低,尤其在盛铃后期至盛絮期表现明显,但潜在最大光化学效率(Fv/Fm)、实际光化学效率(ΦPSⅡ)未受到影响;盛花期和盛絮期根重均显著降低,但地上部总干物质、蕾铃干物质累积量及籽棉产量均显著高于对照。同一根域容积不同水氮处理棉花开花期至盛絮期的Pn、Gs和Fv/Fm、ΦPSⅡ、qp均表现为W1N1>W0N1>W1N0>W0N0;根域限制条件下适量水氮供应处理盛花期和盛絮期地上部总干物质和蕾铃干物质累积量均显著增加,最终单株铃数、单铃重和籽棉产量均显著高于其它处理。因此,在膜下滴灌棉花根域容积受限制条件下,通过优化生育期水氮供应,能改善叶片光合性能、增加地上部干物质积累量及其向生殖器官分配比例,是挖掘膜下滴灌棉花产量潜力和提高效益的有效途径。     

长期施肥对双季稻区红壤性水稻土质量的影响及其评价

为量化27年连续施用化肥及其与猪粪、稻草配施处理对双季稻区土壤质量的影响,选择土壤容重、最大持水量、孔隙度、标准化平均质量直径、pH、阳离子交换量、有效养分、土壤有机质、微生物生物量碳、土壤酶和作物生产力等项目作为评价指标,并根据不同指标所具有的功能归纳为：抗物理退化的能力、养分供应和贮藏的能力、抗生物化学退化的能力、保持作物生产力的能力4项功能,以这4项功能为基础划分土壤质量指数(SQI).结果表明：SQI等级范围为0.544（CK）～0.729（施氮磷钾肥＋稻草处理）.与施氮磷钾肥（NPK）处理土壤相比,长期非均衡施肥的PK、NP、NK处理土壤质量发生了退化.土壤缺磷和缺钾是限制水稻生产力的主要因素,即使每年施用30 t·hm^-2猪粪或4.2 t·hm^-2稻草也不能达到满足高产水稻所需要的土壤磷、钾含量水平.长期施用石灰对红壤水稻土质量的提升效果不明显.在南方红壤水稻种植区,氮、磷、钾与有机肥配施是提升土壤质量的最佳措施.