碱度增加对蛋白核小球藻光合活性与胞外多糖的影响

本文研究了不同重碳酸盐(HCO3)碱度2.3mmol/L(ALK2.3)和12.4mmoFL(ALK12.4)条件对蛋白核小球藻光合活性、色素组成、丙二醛(MDA)含量与胞外多糖的影响.实验结果表明,碱度增加对蛋白核小球藻光合活性呈促进一抑制一促进效应,ALK2.3对光合活性影响的强度.高于ALK12.4.碱度增加提高叶绿素b/叶绿素a(Chl.b/Chl.a)的值,降低类胡萝卜素/叶绿素(Caro/TChl)的值,并且ALKl24条件下对藻细胞的作用程度强于ALK2.3.此外碱度增加刺激蛋白核小球藻胞外多糖分泌,ALK2.3在培养初期提高MDA含量,ALK12.4下细胞MDA含量显著降低.说明碱度增加会促进蛋白核小球藻光合活性,促进光合产物的积累与分泌.暗示胞外多糖的分泌可能是细胞适应高碱度的一种自我保护机制.     

半干旱区春小麦受条锈菌侵染后光合作用和蒸腾作用的变化规律

采用美国CI-301PS型便携式光合作用测定仪,对半干旱区大田春小麦的健康叶片和受条锈菌侵染后病叶的光合作用和蒸腾作用进行活体监测。结果表明：在干旱环境下。受条锈菌侵染后小麦叶片的光合作用和蒸腾作用发生了明显变化,其光合速率比健叶明显降低,而病叶细胞间隙CO2浓度、气孔导度、蒸腾速率等有所升高,且日变化随病叶严重度的不同而明显不同。受干旱和病原物侵染的双重胁迫,小麦叶片的光合效率显著降低,水分利用率也随之下降。不仅与叶绿素含量的明显下降有关,而且与干旱造成的水分亏缺对小麦体内生理生化代谢造成损伤,碳同化过程受到抑制等有着密切的关系。     

不同光质对温室甜椒光合特性的影响

以甜椒＂苏椒13号＂品种为试材,于2009年在江苏南京设计不同彩色塑料薄膜（红、绿、黄、紫、蓝、无色（CK））覆盖处理试验,系统研究了不同光质对温室甜椒叶片光合作用特性的影响。结果表明：不同光质处理的甜椒叶片光补偿点和光饱和点分别在4560μmol.m-2.s-1和1 0001 200μmol.m-2.s-1范围内;红膜处理的单叶最大光合速率最高达8.4μmol.m-2.s-1,紫膜处理最低仅为2.89μmol.m-2.s-1;红膜和CK处理的甜椒叶片CO2饱和点明显高于紫膜和黄膜处理,所有处理的CO2补偿点均在100μmol.mol-1左右。CK的叶绿素含量最高,绿膜处理最低。不同色膜处理的晴天叶片净光合速率、气孔导度、蒸腾速率日变化均呈单峰型。除蓝膜外,其他色膜处理胞间CO2浓度日变化曲线均呈＂W＂型。水分利用效率日平均值以红膜处理最高、紫膜最低。气孔限制值以紫膜处理最高、红膜处理最低。红膜、黄膜处理可促进甜椒光合作用,而紫膜则具有明显的抑制作用。     

南海北部冬、夏季海表浮游植物光合作用速率对光强的响应特征

本文通过南海北部冬、夏季航次的现场观测,研究了海表浮游植物光合作用速率对光强的响应特征(P-E曲线)。结果表明南海北部浮游植物P-E曲线存在明显的季节变化。在冬季,P-E曲线呈现高P_mB、高α、高β的特征,这表明冬季浮游植物在低光照环境中光合作用速率增加迅速,其最大光合作用速率较高但容易受到光抑制。与冬季相反,夏季P-E曲线呈现低P_mB、低α、低β的特征,浮游植物受光抑制影响小,但最大光合作用速率低于冬季。水温和粒级结构等指标与P-E参数存在显著相关,这意味着环境和群落的季节变化可能对光合作用特性有一定影响。通过P-E参数模拟得到真光层内光合作用速率,模拟值与现场结果之间呈明显的线性相关但存在高估。此研究有助于认识南海浮游植物光合作用特征,并为初级生产力模型研究提供依据。     

海洋光合细菌对五种活性染料的脱色研究

实验研究了不同条件下海洋光合细菌的混合菌种对五种活性染料的脱色效果。结果表明,海洋光合细菌耐盐性较好,对五种染料都有很好的脱色效果。温度对各类染料影响不同,但五种染料都在30~35℃时达到最佳脱色效果。菌种适应的PH值范围广,驯化后活性增强。在100mg/L的浓度下,染料X-3B对细菌生长没有明显的抑制作用。     

光生态膜对水稻秧苗生态的影响

采用浮染法将荧光助剂、红外辐射剂、着色剂分散进低密度聚乙烯 (LDPE)树脂中 ,通过挤出吹塑制成厚 0 .1 2 mm,宽 1 2 m的无滴、长寿棚膜。光生态膜将 550 nm的绿光变换为红光提高了红光成分 ,有效的调整了辐射进入棚内的太阳光谱 ,补充了红光的辐射强度 ,改善了农作物的光生态环境 ,促进了作物的光合作用。用这种光生态膜苫盖温室进行水稻育秧 ,在哈尔滨市 1 2个县进行大面积试验示范 ,提高了作物的产量 ,使水稻产量提高了 8.6%。     

Effects of Dredging Activities on Growth of Laminaria saccharina

Abstract. The possible effects of fine-grained deposits on the photosynthesis, growth, and nutrient uptake of Laminaria have been studied in field and laboratory experiments. Some of the plants were treated with fine-grained material for two hours and then transplanted in rows together with untreated plants. At two-week intervals the treatment was repeated and samples collected. The macroalgae were analyzed for growth as well as chlorophyll a , nitrogen, and phosphorus content. In the laboratory experiments, plants of a uniform size were incubated in Plexiglas containers after leaf-marking and treatment in a sediment suspension. At weekly intervals, photosynthesis, growth, chlorophyll a , and nutrients were analyzed.
The field study showed that Laminaria growth was significantly affected by the fine-grained material. The growth in the control experiment was 20% higher than in the treated plants. The chlorophyll a concentrations in the treated plants were significantly lower than in the control experiment, and the results indicated a reduced nutrient uptake in the treated plants. In the laboratory experiments the growth of the treated plants was only 30% of the controls, but no differences in photosynthetic capacities were detected. Nitrogen uptake was reduced in the treated plants, but no effects were observed on phosphorus uptake. Thick layers of fine-grained material caused direct harmful effects and rotting.
The results are discussed in relation to dredging activities; it is concluded that in heavy sedimentation areas, Laminaria growth may be significantly reduced beyond the indirect effect of shading from suspended material in the water.     

长心卡帕藻愈伤组织的诱导与其形态建成的初步研究

以PES液体培养基、固体培养基,采用正交设计,开展了长心卡帕藻(Kappaphycus alvarezii)棕色藻株组织培养和愈伤组织诱导实验,探索了蔗糖、光强、植物生长调节剂对新芽形成和愈伤组织形成的影响,结果表明,固体培养基、IBA、6-BA处理可诱导该藻产生愈伤组织,同时固体培养基更利于诱导形成愈伤组织;显微跟踪观察显示,该藻愈伤组织与高等植物的疏松愈伤组织不同,由细丝状细胞组成,系藻枝段中心髓部细胞脱分化形成的致密型愈伤组织;另外,愈伤枝段比新芽枝段有更高的光合和呼吸速率。     

盐生荒漠地表水、热与CO2输送 的实验研究

利用安装在准噶尔盆地南缘多汁盐柴类荒漠上的涡度相关系统与配套的微气象观测系统所得数据,分析了显热、潜热与CO2通量的日过程和季节变化特点及各通量间的相互关系。数据显示了一个明显违背植物水分关系一般规律的现象:当水汽(潜热) 通量明确显示土壤水分亏缺时,净光合(CO2通量) 却未受到影响。因此推测当地原生植物的根系在积盐严重的土壤上层没有发育,所以其水分状况与光合能力不受上层土壤干湿的影响,观测到的水汽通量的变化主要由土壤蒸发的变化造成的。     

Seasonal dynamics of CO_2 fluxes from subtropical plantation coniferous ecosystem

As one component of ChinaFLUX, the measurement of CO2 flux using eddy covariance over subtropical planted coniferous ecosystem in Qianyanzhou was conducted for a long term. This paper discusses the seasonal dynamics of net ecosystem exchange (NEE), ecosystem respiration (RE) and gross ecosystem exchange (GEE) between the coniferous ecosystem and atmosphere along 2003 and 2004. The variations of NEE, RE and GEE show obvious seasonal variabilities and correlate to each other, i.e. lower in winter and drought season, but higher in summer; light, temperature and soil water content are the main factors determining NEE; air temperature and water vapor pressure deficit (VPD) influence NEE with stronger influence from VPD. Under the proper light condition, drought stress could decrease the temperature range for carbon capture in planted coniferous, air temperature and precipitation controlled RE; The NEE, RE, and GEE for planted coniferous in Qianyanzhou are -387.2 gC·m-2 a-1,1223.3 g C·m-2 a-1, -1610.4 g C·m-2 a-1 in 2003 and -423.8 g C·m-2 a-1, 1442.0 g C·m-2 a-1, -1865.8 g C·m-2 a-1 in 2004, respectively, which suggest the intensive ability of plantation coniferous forest on carbon absorbing in Qianyanzhou.