平果岩溶堆积铝土矿地貌特征及成矿规律研究

平果岩溶堆积铝土矿是具有独特地质特征的铝土矿床,区内岩溶地貌十分发育,并且形成了多种地貌类型, 本文主要探讨各类地貌特征,研究其发展和演化的规律,分析和论述地貌与成矿的关系,为该类型矿床地质工作提供参考.     

光强对缘管浒苔(Ulva linza)光合生理特性和短期温度效应的影响

由于季节和分布深度的不同,海藻接受的光强和温度也不同,其生理响应机制也不同。本文旨在研究不同光强对缘管浒苔(Ulvalinza)光合生理特性及短期温度效应的影响。缘管浒苔样品采自连云港高公岛海区(119.3°E, 34.5°N)。实验设置了低、中、高三个不同水平的光强,分别为90、200和400μE/(m~2·s)。结果表明,藻体的净光合作用速率在低光下显著低于培养在高、中光下的,而光强对呼吸作用速率无显著影响。高光下藻体光系统Ⅱ的最大光化学效率(F_v/F_m)值显著低于中、低光强下,而非光化学淬灭(NPQ)值随光强降低显著下降。叶绿素a和叶绿素b的含量在低光强下均显著高于高、中光强下的含量。最大相对电子传递速率(rETR_(max))随光强变化显著,中光下最高,低光下最低;饱和光强(I_k)在低光下显著低于在高、中光下。在不同浓度的溶解性无机碳(DIC)下,净光合作用速率在不受碳限制时所能达到的最大速率(V_(max))随光强升高而显著增大,净光合作用速率为最大速率一半时的底物浓度(K_m)在低光下显著低于高、中光下。这表明低光上调了藻体的无机碳利用能力。短期温度实验表明,高光培养下,酶失活一半时的温度(T_h)显著增加,而低光下藻体的净光合作用速率的最适温度(T_(opt))显著降低,这表明低光显著提高了缘管浒苔对环境的敏感性,而高光下的藻体更适应高温的环境,这为绿潮在5—7月份大规模暴发的现象研究提供了一定的理论参考依据。     

不同盐度胁迫对坛紫菜叶状体生理指标的影响

以坛紫菜(Pyropia haitanensis)Z-61叶状体为材料,检测了高盐(110)胁迫与低盐(0)胁迫处理不同时间(0、4、8、24h和恢复4h)后叶状体中的羟自由基(·OH~-)清除能力、过氧化氢(H_2O_2)含量、丙二醛(MDA)含量、超氧阴离子(O_2~-·)含量、超氧化物歧化酶(SOD)活性、过氧化氢酶(CAT)活性、抗坏血酸过氧化物酶(GSH)活性以及叶绿素荧光参数[包括PS II最大光化学效率(Fv/Fm)、表观光合电子传递效率(ETR)、非光化学荧光猝灭系数(NPQ)、实际光合作用效率Y(II)]的变化,以探究坛紫菜叶状体对不同盐度海水的耐受机制.结果表明,在高盐和低盐胁迫下,H_2O_2的含量和·OH~-的清除能力随时间增加而呈现逐渐上升的趋势,而O_2~-·的含量在胁迫4h显著升高后无显著变化.且相比于高盐(110),低盐(0)胁迫下坛紫菜叶状体会产生更多H_2O_2、O_2~-·和·OH~-,膜脂过氧化物丙二醛(MDA)含量增加更明显,说明低盐胁迫引起坛紫菜叶状体的氧化损伤要显著高于高盐胁迫.高盐胁迫24h后,SOD的活性达到了最大,CAT、抗坏血酸过氧化物酶(APX)、谷胱甘肽(GSH)的活性均呈现先上升后下降的变化趋势.低盐胁迫下,SOD、GSH的活性均不断增加,CAT、APX的活性先上升后下降.此外,低盐和高盐胁迫下,随时间的增加,叶绿素荧光参数均明显下降.上述结果表明,高盐和低盐胁迫下,坛紫菜叶状体的光合作用受到抑制,机体通过维持较高的抗氧化酶活性以提高活性氧的清除能力,进而保证藻体的正常存活.     

菊花心江蓠的光合特性及其应用研究

测定不同光强下菊花心江蓠(Gracilaria lichevoides)的产氧率和耗氧率.结果表明,20 000 lx以内菊花心江蓠的产氧率和光强的相关曲线的回归方程为y=0. 000 144 3x-0. 122 1,R2=0. 993 8,实验条件下菊花心江蓠的耗氧率为0. 121±0. 010 mg/(g·h),光补偿点为825 lx,光饱和点在20 000～22 000 lx之间,光饱和时的产氧率为2. 723±0. 329 mg/(g·h).光饱和以后菊花心江蓠的产氧率基本保持不变,45 000 lx以后出现轻微光抑制现象.测量水下光强随水深变化情况,发现水深达到水体透明度深度时,光强约14 000～15 000 lx,与菊花心江蓠的最大生长率的光强接近.测量不同养殖模式的溶解氧浓度昼夜变化,发现养殖密度过大可能在凌晨出现缺氧状态.根据菊花心江蓠的光合特性,提出江蓠养殖、江蓠用于生态修复的水深调控方法以及江蓠用于生态养殖的密度调控方法,以保持不同需求条件下较高的经济或生态效益.     

Alterations in seawater pH and CO2 affect calcification and photosynthesis in the tropical coralline alga, Hydrolithon sp. (Rhodophyta)

Calcification in the marine environment is the basis for the accretion of carbonate in structures such as coral reefs, algal ridges and carbonate sands. Among the organisms responsible for such calcification are the Corallinaceae (Rhodophyta), recognised as major contributors to the process world-wide. Hydrolithon sp. is a coralline alga that often forms rhodoliths in the Western Indian Ocean. In Zanzibar, it is commonly found in shallow lagoons, where it often grows within seagrass beds and/or surrounded by green algae such as Ulva sp. Since seagrasses in Zanzibar have recently been shown to raise the pH of the surrounding seawater during the day, and since calcification rates are sensitive to pH, which changes the saturation state of calcium carbonate, we measured the effects of pH on photosynthetic and calcification rates of this alga. It was found that pH had significant effects on both calcification and photosynthesis. While increased pH enhanced calcification rates both in the light and in the dark at pH >8.6, photosynthetic rates decreased. On the other hand, an increase in dissolved CO₂ concentration to 26 μmol kg⁻¹ (by bubbling with air containing 0.9 mbar CO₂) caused a decrease in seawater pH which resulted in 20% less calcification after 5 days of exposure, while enhancing photosynthetic rates by 13%. The ecological implications of these findings is that photosynthetically driven changes in water chemistry by surrounding plants can affect calcification rates of coralline algae, as may future ocean acidification resulting from elevated atmospheric CO₂.     

Impacta of CO2 enrichment on growth and photosynthesis in freshwater and marine diatoms

The physiological responses of Nitzschia palea Kiitzing, a freshwater diatom, to elevated CO2 were investigated and compared with those of a marine diatom, Chaetoceros muelleri Lemmermann previously reported. Elevated CO2 concentration to 700 μl/L increased the dissolved inorganic carbon (DIC) and lowered the pH in the cultures of N. palea, thus enhancing the growth by 4%-20% during the whole growth period. High CO2-grown N. palea cells showed lower levels of dark respiration rates and higher Ik values. Light-saturated photosynthetic rates and photosynthetic efficiencies decreased in N. palea with the doubling CO2 concentration in airflow to the bottom of cultures, although the doubling CO2 concentration in airflow to the surface cultures had few effects on these two photosynthetic parameters. N. palea cells were found to be capable of using HCO3- in addition to gaseous CO2, and the CO2 enrichment decreased their affinity for HCO3- and CO2. Although doubled CO2 level would enhance the biomass of N. palea and C. muelleri to different extents, compared with the marine diatom, it had a significant effect on the specific growth rates of N. palea. In addition, the responses of photosynthetic parameters of N. palea to doubled CO2 concentration were almost opposite to those of C. muelleri.     

近地层大气臭氧对作物光合作用影响的数值模拟研究

近地层O3浓度增加对作物光合产生不利影响,因此,利用TE-49C型臭氧自动观测仪对常熟农田上方O3浓度进行了逐时测定,同时利用OTC-1型农田开顶式气室,测定了不同O3浓度对冬小麦叶片光合作用的影响.在此基础上,首次建立了O3对冬小麦光合作用影响的数值机理模式,模式分辨率达到瞬时时间尺度,空间积分采用Ross方案,具有较高分辨率和准确度.对O3浓度观测表明:O3浓度逐时值变化在0～160×10-9之间,相比之下日平均值变化较小,仅在5×10-9～60×10-9之内;长江中下游地区农田上方O3存在三种典型日变化形式:高浓度单峰型、高浓度多峰型和低浓度平缓型.数值分析表明:全晴天状况下高浓度单峰型对光合作用日总量影响最大.数值敏感分析表明:O3浓度和辐射同步变化时,随着日总辐射量的加大,臭氧浓度增加对光合作用的影响程度逐渐加强.全生育期积分表明:水肥适宜时,由于O3影响冬小麦光合总损失量约为9.22%.     

北京西北地区景观格局优化

Supported by the technologies of remote sensing (RS) and geographical information system (GIS), we chose northwest of Beijing as a study area and gave priority to understanding of the spatial-temporal characteristics of landscape pattern change through visually interpreted Landsat TM images of 1989, 1996 and 2005. It is believed that there were a series of landscape ecological problems caused by city expansion: landscape ecological connectivity was low; landscape structure was simplified; the fragmentation of green land patch was more obvious on the plain areas, moreover, spatial distribution of green land was unbalanced. For this reason, this study adopted accumulative cost distance model, combined with ecosystem services and spatial interactions of landscape types, analyzed the spatial difference of the ecological function and the compactness of landscape structure in the study area, and further discussed the landscape pattern optimization proposal. We find that it is essential to protect and establish ecological sources, to establish urban ecological corridors, and to establish ecological nodes at the landscape ecological strategic positions so as to intensify spatial relationships among landscape elements and maintain continuity of landscape ecological process and pattern in the course of city expansion. The methods and final results from this study are expected to be useful for landscape ecological planning in Beijing region. Foundation: Program for New Century Excellent Talent in the University, No.NCET-06-0122; The National Water Special Project, No.2008ZX07526-002-02; Specific Financial Funds Project of Beijing Academy of Science and Technology (BJAST), Platform Construction for Typical Contaminated Soil Remediation Technology of Beijing (2008A-1); Plan Support for Innovative Team (2008A-6) of BJAST; NSFC, No.30871964; BJNSFC, No.4073036 Author: Yue Depeng (1963–), Ph.D and Associate Professor, specialized in desertification control, landscape ecology and land evaluation.     

基于遥感指数的中国南亚热带常绿林光合作用季节动态变化研究（英文）

准确监测中国南亚热带常绿林生态系统光合作用动态变化对全球陆地生态系统碳吸收估计及其对气候变化的响应至关重要。涡动协方差技术一直被认为是评估生态系统碳通量最直接的方法,虽然具有较高的时间分辨率,但在空间上有其自身的局限性。近10年,光谱观测和卫星遥感技术在植被生产力监测方面的应用大大提高了对碳通量的时空评估能力。本研究基于长时间序列光谱观测数据,提取叶绿素荧光指数(FRI)和光化学植被指数(PRI),进而评价两个生理遥感指数跟踪亚热带常绿林光合作用季节动态变化的能力。结果表明,传统NDVI指数受光照条件影响较大(R^2=0.88,p<0.001),并呈现出饱和现象,而FRI和PRI指数则能较好地跟踪植物光和功能季节性变化,且在季节尺度上两者受光照条件的影响相对较弱(FRI指数R^2=0.13;PRI指数R^2=0.51);相比PRI指数与光能利用效率(LUE)在午间具有较强的相关性,FRI指数与GPP的相关性则在早上优于午间时段;而这两种相关关系均在植被衰退季优于植被生长季。另外,通过考虑光合有效辐射因子,基于FRI指数监测GPP的能力得到显著提高,R 2从0.22提高到0.69,呈显著正相关关系(p<0.001);同时,在植被衰退季也呈现出更强的相关性(R^2=0.79,p<0.001)。研究成果表明,FRI和PRI两个生理遥感指数能够准确地监测亚热带常绿林光合作用季节动态变化,建议把其引入碳循环模型中以改进区域碳收支估计。     

干旱胁迫对夏玉米叶片光合及叶绿素荧光的影响

选用华北地区大面积种植的夏玉米品种郑单958、承玉2号、鲁单981作为试验材料,通过研究干旱胁迫条件下的玉米叶片光合、叶绿素荧光等指标随着土壤水分的动态变化规律,以期为夏玉米干旱的生理生态变化监测及水分高效利用提供理论依据。研究发现,在土壤含水量70％左右时,随着土壤相对湿度的下降,上述3个夏玉米品种仍能保持其叶片水分状态。郑单958、承玉2号、鲁单981的叶片净光合速率在土壤水分中等条件下最大,分别为39．9、38．8、38．4μmolCO2／m^2·s;在土壤相对湿度较低时,郑单958、承玉2号、鲁单981的叶片净光合速率下降趋势明显（P〈0．05）。叶片水势变化规律为：在土壤相对湿度〉90％时,对水分胁迫郑单958、承玉2号不敏感,鲁单981敏感;在土壤相对湿度〈70％时,水分胁迫条件下承玉2号不敏感,而鲁单981、郑单958敏感。气孔导度（g1）变化规律：随着水分胁迫加剧,3个夏玉米品种气孔导度均下降,在土壤水分较高时,气孔导度变化规律不明显,在土壤水分较低时,气孔导度明显下降（P〈0．01）,细胞间隙CO2浓度（Ci）随土壤水分胁迫加剧而上升。上述结果表明：与叶片的光合和水分状况相比,夏玉米的气孔对土壤水分的匮缺更为敏感。