Rpfan37在刺槐共生结瘤过程中的功能探究

目的:研究刺槐中与磷脂酰肌醇转运蛋白有较高同源性的基因Rpfan37的功能,为探究相关基因参与豆科植物与根瘤菌共生结瘤过程提供新的思路。方法:通过前期研究,建立豆科植物刺槐与共生根瘤菌互作的抑制差减杂交反交文库,筛选疑似与共生结瘤相关的基因。利用PCR技术快速克隆经实时荧光定量PCR技术(qRT-PCR)分析基因在不同接菌时间及不同植物组织的表达。构建RNA干扰(RNAi)重组载体,转农杆菌介导转化植物根部,接种根瘤菌后验证该基因在刺槐共生结瘤过程的功能。结果:基因表达分析显示,在接菌与未接菌的刺槐根中,处理后第15天,Rpfan37表达均显著上调,但接菌与未接菌处理对该基因表达无显著影响;在成熟的根瘤中,该基因仅为低水平表达。RNAi转化植株的鲜重、株高、根长及结瘤数较对照组显著降低。在显微镜下观察到RNAi植株根毛发育异常;与对照相比,RNAi转化植株形成的根毛卷曲、根毛侵染线及根瘤原基数目均显著降低。根瘤石蜡切片结果显示RNAi植株根瘤中的侵染细胞与对照相比明显减少,分析豆血红蛋白表达发现,RNAi植株中根瘤发育成熟过程明显受阻。结论:在豆科植物刺槐中发现的相关基因Rpfan37能够参与刺槐共生结瘤过程,为研究磷脂酰肌醇转运蛋白在共生结瘤过程中的作用提供了新的理论基础。     

Arthropod diversity of exotic vs. native Robinia species in northern Arizona

1 Arthropods were collected on native locust, Robinia neomexicana A. Gray, and exotic Robinia pseudoacacia L. in northern Arizona over a 2‐year period to determine the number of arthropod species and number of individuals present. 2 More arthropod species were found on the native (251) than on the exotic Robinia (174). 3 Greater species diversity was likewise found on the native than the exotic. The five most numerous insects collected each year accounted for 81% to 91% of the total number collected on the exotic and native Robinia in 1997 and 1998. Only 12 species occurred on both the native and exotic Robinia in both years. 4 These findings are discussed in the context of using exotic trees in plantations and ecological theory regarding rates of arthropod species accumulation on exotic hosts.     

不同林龄刺槐林土壤团聚体化学计量特征及其与土壤养分的关系

土壤团聚体化学计量特征分析可以为土壤养分的评价提供依据,对陕北黄土丘陵区20 a、25 a、40 a、50 a刺槐林土壤团聚体有机碳、全氮、全磷化学计量比及其与土壤有机碳、全氮、全磷化学计量比的相关性采用逐步回归分析方法进行了分析。结果表明:随着林龄的增加,刺槐林各粒径土壤团聚体有机碳、全氮含量及其有机碳、全氮、全磷化学计量比显著增加(P0.05),均表现为在0—20 cm土层高于20—40 cm土层,而刺槐林土壤团聚体全磷含量变化较小;相同林龄刺槐林在0—20 cm和20—40cm土层中0.25—2 mm粒径土壤团聚体有机碳、全氮、全磷含量及其化学计量比最高。刺槐林0.25—2 mm粒径团聚体对土壤原土有机碳、全氮含量及其有机碳、全氮、全磷化学计量比有显著影响。营造刺槐林对各粒径土壤团聚体全效养分分配及其平衡关系存在积极的影响,主要体现在0.25—2 mm粒径土壤大团聚体中,通过影响0.25—2 mm粒径团聚体提高了土壤全效养分的供应和保持能力。     

黄土高原半湿润区刺槐树干液流对人工截留降雨输入及环境因子的响应

随着全球气候变化加剧, 局部地区温度上升和降水量改变将对区域植被的分布与生长产生重要影响。在黄土高原半湿润及半干旱地区植被恢复中, 刺槐(Robinia pseudoacacia)是大面积种植的人工林树种。为探究该树种蒸腾耗水特征对降水量改变及水分条件差异的响应, 于2015年4月起, 在地处黄土高原半湿润区的陕西省永寿县槐平林场, 于35年生刺槐人工林样地中布设了人工截留降雨试验, 减少了47.5%的降雨输入。处理当年生长季内, 截留降雨处理区0-100 cm土层的平均土壤含水量相对于对照区(23.76%)有明显降低(22.59%)。采用Granier热扩散探针对截留降雨处理区和对照区的样树树干液流动态进行连续监测, 并同步监测主要气象环境因子(太阳辐射、空气温度和湿度)和林地土壤含水量, 分析了截留降雨处理区与对照区树干液流通量密度动态特征及其对环境因子的响应。结果表明: 截留降雨输入处理降低了刺槐树干液流通量密度, 截留降雨处理期间典型天气的平均液流通量密度(1.64 mL·m ^-2·s ^-1)不仅低于同组样树在处理前一年同期的水平(2.42 mL·m ^-2·s ^-1), 而且远低于试验期间对照区样树的平均水平(3.38 mL·m ^-2·s ^-1); 同时, 截留降雨处理还降低了刺槐液流通量密度对气象因子变化的敏感性, 截留降雨处理区样树液流通量密度响应空气水汽压亏缺的拟合方程参数值与对照区样树差异显著。分析可知, 降水量水平不仅影响土壤水分状况, 而且影响刺槐对气象环境因子响应的敏感性, 降水量减少导致的土壤含水量整体降低会使得该区域刺槐蒸腾耗水量下降, 显示其对环境因子的适应性, 但最终会导致生产力的大幅度降低。     

豆科三属八种植物的核型及rDNA定位研究

对豆科槐属的国槐(SophorajaponicaL.)、五叶槐(S.japonicaL.f.oligophyllaFranch.)、龙爪槐(S.japonicaL.f·pendulaLoud.)、黄金槐(S.xanthanthaC.Y.Ma.)(以上均为四倍体,2n=4x=28)、红花槐(S.rubrifloraTsoong.,2n=3x=21),刺槐属的刺槐(Robiniapseudoa-caciaL.,2n=2x=22)、毛洋槐(R.hispidaL.,2n=2x=30)和紫穗槐属的紫穗槐(AmorphafruticosaL.,2n=2x=40)核型进行了分析,并应用荧光原位杂交技术进行了45SrDNA的染色体定位。槐属4个四倍体种各具4个45SrDNA位点,位于两对染色体的着丝粒周围;红花槐,3个45SrDNA位点位于第5组染色体随体区域。刺槐,4个rDNA位点位于两对随体染色体端部;毛洋槐,8个rDNA位点,4个位于两对染色体的随体及次缢痕,另4个位于两对染色体着丝粒周围。紫穗槐,6个45SrDNA位点,分别位于3对染色体的着丝粒和随体。本文对rDNA作为染色体标记在核型分析中的应用及在基因组中的分布特点进行了讨论。     

Facilitations between the Introduced Nitrogen-fixing Tree, Robinia pseudoacacia, and Nonnative Plant Species in the Glacial Outwash Upland Ecosystem of Cape Cod, MA

Robinia pseudoacacia, a nitrogen-fixing, clonal tree species native to the central Appalachian and Ozark Mountains, is considered to be one of the top 100 worldwide woody plant invaders. We initiated this project to determine the impact of black locust (Robinia pseudoacacia) on an upland coastal ecosystem and to estimate the spread of this species within Cape Cod National Seashore (CCNS). We censused 20 × 20 m plots for vegetation cover and environmental characteristics in the center of twenty randomly-selected Robinia pseudoacacia stands. Additionally, paired plots were surveyed under native overstory stands, comprised largely of pitch pine (Pinus rigida) and mixed pitch pine–oak (Quercus velutina and Quercus alba) communities. These native stands were located 20 m from the edge of the sampled locust stand and had similar land use histories. To determine the historical distribution of black locust in CCNS, we digitized and georeferenced historical and current aerial photographs of randomly-selected stands. Ordination analyses revealed striking community-level differences between locust and pine–oak stands in their immediate vicinity. Understory nonnative species richness and abundance values were significantly higher under Robinia stands than under the paired native stands. Additionally, animal-dispersed plant species tended to occur in closer stands, suggesting their spread between locust stands. Robinia stand area significantly decreased from the 1970’s to 2002, prompting us to recommend no management action of black locust and a monitoring program and possible removal of associated animal-dispersed species. The introduction of a novel functional type (nitrogen-fixing tree) into this xeric, nutrient-poor, upland forested ecosystem resulted in ‘islands of invasion’ within this resistant system.     

Exotic tree seedlings are much more competitive than natives but show underyielding when growing together

Aims Invasive species continue to be a worldwide threat to ecosystems mainly as a cause for biodiversity loss. Forest ecosystems, for example, are subject to a change in species composition due to the invasion of exotic species. Specifying the attributes that cause the strong competitiveness of several exotic species may improve the ability to understand and effectively manage plant invasions in the future. In this study the following hypotheses were tested: (1) biomass production of below- and aboveground plant components of the exotic tree species is higher than that of the natives, resulting in a higher competitiveness of the exotics; (2) the exclusion of root competition has a positive effect on the biomass production of the inferior native species; and (3) mixtures of native and exotic species yield a higher biomass production than the respective monocultures.Methods A pot experiment, containing about 2000 tree seedlings, was established. We investigated the biomass productivity and growth reactions of two native (Quercus robur L., Carpinus betulus L.) and two exotic tree species (Prunus serotina Ehrh., Robinia pseudoacacia L.) in different intra- and interspecific, competitive situations with and without the influence of root competition.Important findings The biomass production of both exotic species was significantly higher and led to a strong competitive advantage, resulting in a biomass decrease of the less competitive native species. The high belowground biomass of both exotic species had a negative effect on the biomass production. The competitive pressure of exotic tree seedlings on the native ones was largely driven by root competition. Furthermore, mixtures of native and exotic tree species had a higher productivity than their growth in monocultures would have predicted. Competition was lower for exotic species in mixtures with the less productive native species compared to the competition in monocultures or in mixture with the other highly productive exotic species. Accordingly, both highly competitive exotic species produced less biomass in mixture with each other compared to monocultures. Despite the significantly higher biomass of P. serotina in all mixtures and in monoculture, R. pseudoacacia seemed to be the dominating species. Due to its strong root competition, R. pseudoacacia significantly reduced the biomass production of P. serotina .     

黄河故道不同灌水方式刺槐人工林幼树水分利用效率和生长特性

干旱一直是限制黄河故道沙区树木生长的重要因素之一,而刺槐(Robinia pseudoacacia)以其较强的耐旱性、较高的成活率在造林时备受重视。适宜的灌水方式不但可以提高当地水资源的高效利用,而且可以促进刺槐迅速生长,改善当地环境生态。因此,在2011至2012年间,对黄河故道沙地进行刺槐人工林的建设与培育,开展滴灌(DI)、沟灌(FI)和软管喷灌(HSI)3种灌水方式对刺槐人工林幼树水分利用效率(WUE)和生长特性影响的研究。结果表明,在不同的水文年份,滴灌刺槐的净光合速率(Pn)、蒸腾速率(Tr)高于软管喷灌,软管喷灌高于沟灌。水分利用效率受年份影响较大,但均表现为前期下降,8月份前后降到最低值,随后缓慢回升。不同灌水方式叶绿素含量(CC)差异显著,滴灌条件下刺槐叶绿素含量最高,其次为软管喷灌,沟灌最低。不同树龄,不同灌水方式刺槐株高、地径和胸径差异显著。一年生林,滴灌刺槐的株高、地径和胸径分别比软管喷灌高出23.4、0.27 cm和0.14 cm;二年生林,滴灌刺槐的株高、地径和胸径分别比软管喷灌高53.7 cm、0.61 cm和0.54 cm。滴灌刺槐的株高、地径和胸径的年度生长量分别为软管喷灌的112.1%、107.1%和111.8%,同时分别为沟灌的121.8%、191.8%和343.6%。不同灌水方式刺槐幼树水分利用效率受年际间气象因素影响较大,滴灌可以显著地改善刺槐幼树的光合生理特性,促进其快速生长。     

黄土丘陵区退耕还林地刺槐人工林碳储量及分配规律

采用样地调查与生物量实测方法,研究了甘肃黄土丘陵区不同坡向(阳坡、阴坡)和退耕年限(退耕5a、8a和11a)刺槐人工林乔木不同器官、灌草层、枯落物层和土壤层的碳含量,以及刺槐人工林乔木层、灌草层、枯落物层和土壤层碳储量及其分配特征。结果表明:刺槐不同器官碳含量均值变化范围为43.02%—50.89%%,从高到低排列顺序为树干细枝中枝粗枝叶根桩大根粗根小根中根树皮细根;灌木层碳含量为35.76%—42.74%;草本层碳含量为35.83%—43.64%;枯落物层碳含量为39.55%—41.77%;土壤层(0—100 cm)碳含量均值变化范围0.22%—0.99%,随退耕年限增加而增大,土壤深度的增加而逐渐下降。刺槐人工林生态系统碳库空间分布序列为土壤层(0—100 cm)植被层枯落物层。阳坡和阴坡退耕5a、8a、11a刺槐林生态系统碳储量分别为52.52、58.93、73.72 t/hm2和49.95、61.83、79.03 t/hm2。退耕年限和坡向是影响刺槐人工林碳储量增加的主要因素。刺槐人工林具有良好的固碳效益,是黄土丘陵区的理想树种。