三江平原典型小叶章湿地土壤氮素净矿化与硝化作用

2004年6月—2005年7月,利用PVC顶盖原位培育法研究了三江平原典型草甸小叶章湿地和沼泽化草甸小叶章湿地土壤(0~15cm)无机氮库、净矿化/硝化速率动态、影响因素及年净矿化/硝化量.结果表明:两种湿地土壤的无机氮均呈明显的动态变化特征,其NH4 -N、NO3-N含量均表现为典型草甸小叶章湿地>沼泽化草甸小叶章湿地.两种湿地土壤的净矿化/硝化速率均呈明显的波动变化,生物固持作用、反硝化作用以及雨季较多降水是导致净矿化/硝化速率出现负值的主要原因.温度、降水、土壤有机质含量、C/N和pH是引起二者土壤无机氮库、净矿化/硝化速率存在明显差异的重要原因.典型草甸小叶章湿地的年净矿化量(19.41kg·hm-2)、年净硝化量(4.27kg·hm-2)以及净硝化量占净矿化量的百分比(22.00%)明显高于沼泽化草甸小叶章湿地(5.51kg·hm-2、0.28kg·hm-2和5.08%),说明前者的氮有效性以及维持可利用氮的能力明显高于后者.     

干旱胁迫对沙枣和孩儿拳头的生理特性的影响

以沙枣和孩儿拳头2年生盆栽苗为材料,采用称重控水的方法对4个梯度土壤干旱胁迫条件对沙枣和孩儿拳头生理特性的影响进行了研究.结果显示:(I)干旱胁迫造成了两物种体内水分的严重亏缺,重度胁迫(6.4%～8.0%)下,两物种自然饱和亏为对照的3～4倍;同一干旱胁迫梯度下沙枣自然饱和亏总高于孩儿拳头,但水分临界饱和亏和需水程度低于孩儿拳头;沙枣自由水含量随干旱胁迫加剧下降幅度较大,自由水向束缚水转化率较高;沙枣最高水势的下降幅度低于孩儿拳头,最低水势的下降幅度高于孩儿拳头,且沙枣的绝对水势比孩儿拳头低.(2)随着干旱胁迫程度的加剧,两物种叶片中的脯氨酸含量、可溶性总糖含量均有不同程度的增加,特别是在重度干旱胁迫下,脯氨酸含量高出对照4倍多,且孩儿拳头脯氨酸含量明显高于沙枣,但可溶性总糖含量低于沙枣;沙枣本身的可溶性蛋白含量较孩儿拳头高,随干旱胁迫的加重沙枣的可溶性蛋白含量先增加后下降,而孩儿拳头逐渐下降.结果表明,沙枣和孩儿拳头对干旱胁迫均具有积极的水分生理响应方式,推测两种植物的水分耐受极限为6.4%～8.0%,但物种间生理响应方式存在差异,沙枣较孩儿拳头具有更强的防御干旱的生理机制.     

沙枣组织脱分化培养与快繁体系建立的研究

研究了以沙枣的种子为外植体诱导形成愈伤组织以及植株再生的过程,对培养中出现的愈伤组织和不定芽的类型进行了探讨。通过正交试验及单因素试验方法,确定了沙枣快繁体系的最适培养方案：①诱导材料：苗期为10 d的沙枣无菌苗子叶;②有效愈伤组织诱导培养基：MS+NAA 0.5 mg·L^-1+BA 2.0 mg·L^-1+3%蔗糖;③有效芽的分化培养基：MS+NAA 0.1 mg·L^-1+BA1.0 mg·L^-1+3% 蔗糖;④壮苗培养基：MS+NAA 0.1mg·L^-1+BA 1.0 mg·L^-1+GA 30.2 mg·L^-1+3%蔗糖;⑤生根培养基：1/2MS+ABT生根粉（1号）1.0 mg·L^-1+1.5%蔗糖。     

Biogeochemical cycle of Sulfer in the Calamagrostis angustifolia wetland ecosystem in the Sanjiang Plain, China

To better understand the Sulfur (S) cycle in the wetland ecosystem, the S cycle and its compartmental distribution within an atmosphere-plant-soil system were studied using a compartment model in the Calamagrostis angustifolia wetland in the Sanjiang Plain, Northeast China. The results showed that the soil was the main S storage and flux hinge in which 97.78% S was accumulated. In the plant subsystem, the root was the main S storage, and it remained at 79.60% of the total S contents, which in the Calamagrostis angustifolia wetland ecosystem showed that the parts above the ground took up 0.75 g S/m², the S re-transferring biomass to the root was 0.24 g S/m², and to the litter was 0.51 g S/m²; the root took up 3.76 g S/m² and the S transferring biomass to the soil took up 3.07 g S/m²; the litter S biomass was 0.75 g S/(m²·a) and the S transferring biomass to the soil was more than 0.52 g S/(m²·a). The emission amount of H2S from the Calamagrostis angustifolia wetland ecosystem to the atmosphere was 1.42 mg S/m², whereas carbonyl sulfide (COS) was absorbed by the Calamagrostis angustifolia wetland from the atmosphere and the absorption amount was 1.83 mg S/m². The S input biomass from the rain to the ecosystem was 4.85mg S/m² during the growing season. The difference between input and output amounts was 5.26 mg S/m², which indicated that S was accumulated in the ecosystem and would lead to wetland acidification in the future.     

An examination of hybridization between the cattail species typha latifolia and typha angustifolia using random amplified polymorphic DNA and chloroplast DNA markers

Typha glauca represents a significant portion of the biomass of the wetlands surrounding the Great Lakes, USA. It is generally accepted to be a form of hybrid between T. latifolia and T. angustifolia, which itself appears to be an exotic introduction from Europe. Based on morphological and isozyme data, conflicting theories have been proposed for the hybrid nature of T. glauca: it has been described as a hybrid swarm, a distinct hybrid species and an F1 hybrid. Therefore, we developed random amplified polymorphic DNA (RAPD) and chloroplast DNA markers, specific to the parental species, to assess hybrids. Ten RAPD primers gave 17 fragments specific to T. angustifolia and 13 fragments specific to T. latifolia. All of the interspecific hybrids contained each of the species-specific markers, indicating an F1 hybrid status. Furthermore, all hybrids tested contained the T. angustifolia chloroplast haplotype, which is consistent with differential interspecific crossing success found previously. Additional confirmation of an F1 hybrid status was gained by examining seedlings from T. glauca. These progeny were expected to be advanced-generation hybrids, as opposed to the F1 hybrid parent. Analysis of the seedlings revealed segregating marker patterns consistent with patterns observed in experimental advanced-generation hybrids, although these advanced hybrids do not appear to be a significant part of mature stands. Our data do not provide support for extensive gene flow between T. latifolia and T. angustifolia. However, our results suggest that hybridization between the native and introduced Typha species has impacted the native population through the spread of the F1 hybrid, T. glauca.     

Responses of apical ion fluxes to NaCl stress in Elaeagnus angustifolia seedlings

Aims Elaeagnus angustifolia is one of the most salt-tolerant species. The objective of this study was to understand the mechanisms of ion transporation in E. angustifolia exposed to different salt concentrations through manipulations of K⁺/Na⁺ homeostasis.
Methods Seedlings of two variants of the species, Yinchuan provenance (YC, salt-sensitive type) and the Alaer provenance (ALE, salt-tolerant type), were treated with three different NaCl application modes, and the ion fluxes in the apical regions were measured using non-invasive micro-test technology (NMT). In mode 1, Na⁺ and K⁺ fluxes were measured after 150 mmol·L^-1 NaCl stress lasted for 24 h. In mode 2, K⁺ and H⁺ fluxes were quantified with a transient stimulation of NaCl solution. In mode 3, Amiloride (Na⁺/H⁺ antiporters inhibitor) and tetraethylammonium (TEA, K⁺ channel inhibitor) was used to treat apical regions of E. angustifolia seedlings after NaCl stress for 24 h, respectively.
Important findings Under NaCl stress for 24 h, net effluxes of Na⁺ and K⁺ were increased significantly. The net Na⁺ effluxes of YC provenance seedlings (720 pmol·cm^-2•s^-1) were lower than that of ALE provenance (912 pmol·cm^-2·s^-1), but the net K⁺ efflux was higher in YC provenance. Under the instantaneous NaCl stimulation, net K⁺ efflux was remarkably increased, with the net K⁺ efflux of YC provenance always higher than that of ALE provenance. Interestingly, H⁺ at the apical regions was found from influx to efflux, with the net H⁺ efflux of ALE provenance greater than that of the YC provenance. Under the NaCl and NaCl + Amiloride treatment, the net Na⁺ efflux of ALE provenance seedlings was higher than that of YC provenance, while the net K⁺ efflux was less in ALE provenance seedlings. On the other hand, the differences in net Na⁺ and K⁺ effluxes were insignificant between the two provenances under the control group and NaCl + TEA treatment. In conclusion, NaCl stress caused Na⁺ accumulation and K⁺ outflows of E. angustifolia seedlings; The E. angustifolia seedlings utilize Na⁺/H⁺ antiporters to reduce Na⁺ accumulation by excretion; and the maintenance of K⁺/Na⁺ homeostasis in salt-tolerant E. angustifolia provenance seedlings roots accounted for a greater Na⁺ extrusion and a lower K⁺ efflux under NaCl stress. Results from this study provide a theoretical basis for further exploring salt-tolerant E. angustifolia germplasm resource.     

Typha×glauca Godr.,香蒲属(香蒲科)中国新记录杂种及其形态特征

香蒲属(Typha L.)为多年生水生或沼生草本植物, 种间存在十分普遍的杂交现象, 其中一些杂种在湿地生态系统中有重要的作用。在查阅大量腊叶标本基础上, 结合野外居群生物学工作, 作者发现中国一新记录杂种, 即T.×glauca Godr. (T. angustifolia L.×T. latifolia L.), 并新拟“粉绿香蒲”作该杂种的中文名。对粉绿香蒲的形态特征进行了研究, 讨论了其与亲本水烛和宽叶香蒲的区别, 并给出检索表。     

一种大连细叶早熟禾内生真菌的形态学和系统发育学研究

【目的】鉴定分离自辽宁省大连市细叶早熟禾中的内生真菌。【方法】在辽宁省大连市的黄金山和白玉山采集细叶早熟禾(Poa awgws啡L.),通过显微镜观察植物是否含菌,统计样品中内生真菌的检出率;从含菌样品中分离内生真菌,纯化后在马铃薯葡萄糖琼脂(PDA)培养基上培养3周,测定分离菌株的形态学特征;运用IQS法提取分离菌株的总DNA,利用特异性引物妒增分离菌株的P-Tubulin(tubB)和Translation elongation factor 1-a(碎4)基因片段,利用DNAssist 2.2和ClustalX 1.81软件进行序列的多重比对和分析,运行PAUP 4 beta 10、MrModeltest 2.3选择合适的模型,用MrBayes 3.1.2构建最大似然树,分析分离菌株的系统发育学特征。【结果】共釆集植物样品262个,其中内生真菌的检出率达57.3%;根据分离地点和菌落特征筛选和纯化了10个分离菌株,选用其中6个分离菌株进行形态学特征的调查,发现分离菌株呈典型的Neotyphodium属形态学特征,进而和其他宿主为早熟禾属植物的内生真菌进行比较,发现分离菌株的特征与Epichlo谷liyangensis相近,但分生抱子较小[(5.3±0.3)|jmx(2.9±0.2)Mm],生长速度稍慢(每周8.7±1.4 mm);基于5个分离菌株tubB和tefA片段序列的系统发育学特征显示,它们的如65和对^序列分别为单拷贝,并与五.中的第二拷贝聚为一类。【结论】分离菌株在原始宿主植物上没有形成子座,分离菌株的形态学特征和系统发育学特征均与五./zyawge/ts/j?有明显差异。兼顾其它早熟禾属植物内生真菌的宿主植物的种类和地理分布特征,这些菌株有可能属于一个新的内生真菌类群。     

小叶章种群分布格局的分形特征Ⅱ信息维数与关联维数

应用分形理论中的信息维数(Information dimension)和关联维数(Carrelation dimension)研究了三江平原小叶章(Deyeuxia angustifolia)种群分布格局特征。结果表明:信息维数在5~9月分别为1.494、1.709、1.642、1.553、1.625,表明其结构较复杂,格局强度较高。关联维数则为1.662、1.861、1.766、1.750、1.807,说明小叶章个体空间相关程度较高。种内竞争强烈,对空间有较强的占据能力。两个维数的季节动态均自5月至6月达到极大值,而后逐渐下降,至9月略有回升。     

超富集植物对重金属耐受和富集机制的研究进展闫 研 李建平 赵志国 林庆宇(505) 狭叶香蒲吸收Cd2+的动力学特征

采用水培方法,加入Cd2+浓度为0、0.2、0.4、0.6、1、1.2、1.5mg·L-1,分别在4、8、12、24h研究狭叶香蒲幼苗吸收Cd2+的动力学特征。结果表明,狭叶香蒲对Cd2+的吸收基本符合Michaelis-Menten动力学模型。在上述几个时间段中,以0～4h时间段内狭叶香蒲对Cd2+吸收的最大吸收速率Vmax最大,Km最小,α值也最大,此时根系吸收能力最强。随时间的延长(4～24h),Vmax变小,但是净吸收速率V仍在增加。用V-C作图法和L-B作图法求解动力学参数结果差异不大,且两种方法曲线模拟的相关性均较好。