环境因子对细基江蓠繁枝变种氮、磷吸收速率的影响

实验室条件下,研究了光强、酸碱度、温度、盐度对细基江蓠繁枝变种N、P吸收速率的影响.细基江蓠繁枝变种对N的吸收速率在光强为800～2400μmolphoton     

土壤水分和供硼状况对不同硼效率油菜苗期生长、水分含量和硼形态的影响

通过土培试验,研究了土壤水分和供硼状况对不同硼效率油菜苗期生长、叶片水分含量和硼形态的影响.结果表明:低水分胁迫条件下,硼高效甘蓝品种和硼低效甘蓝品种在高供硼水平下的单株鲜质量比低供硼水平分别增加了43.1%和31.7%,但品种间没有显著差异;硼高效品种在两种供硼水平下的束缚态水分含量分别比低效品种高11.4%和1.7%,半束缚态硼分配比例分别比低效品种高6.9%和23.8%.正常水分条件下,硼高效甘蓝品种和硼低效甘蓝品种在高供硼水平下的单株鲜质量比低供硼水平分别增加了11.1%和27.4%;硼高效品种在两种供硼水平下的自由态水分含量较硼低效品种多,自由态硼累积量为低效品种的2倍多,这有利于硼在高效植物体内的移动运输.     

增温与氮添加对不同季节杉木幼苗细根不同形态氮吸收动力学的影响

为了揭示不同季节下杉木人工林不同形态氮吸收速率对全球变暖与氮沉降的地下响应,在福建三明森林生态系统与全球变化研究站陈大观测点开展增温和氮添加双因子试验,包括对照、增温、施氮、增温+施氮4个处理。结果表明:(1)在三个季节中,4个处理的杉木细根对不同浓度下硝态氮的吸收速率基本呈现出春季较高,夏秋季较低的态势,而对不同浓度下铵态氮的吸收速率则相反,为夏秋季较高,春季较低。(2)不同季节四个处理的离体根对不同浓度下铵态氮的吸收均遵循米氏-曼氏动力学方程,而对硝态氮的吸收并不完全遵循米氏方程,表现为双相动力学。(3)春季,与无氮添加相比,氮添加提高了NH⁺₄的最大吸收速率(V_max-NH⁺₄)。夏季,与无增温相比,增温提高了V_max-NH⁺₄。秋季,与无增温相比,增温降低了NH⁺₄的半饱和常数(K_m-NH⁺₄);...     

大叶藻对氮磷营养盐的吸收动力学特征

营养盐是影响海草生长的关键因子, 目前有关海草不同组织对不同形式氮和磷的吸收特征尚不明确。该研究通过利用海草地上和地下组织分隔培养装置, 设置不同的氨态氮、硝态氮和磷酸盐浓度, 探究了大叶藻(Zostera marina)植株及其地上和地下组织对氮磷营养盐的吸收动力学特征。结果显示: (1)大叶藻对氮磷的吸收符合饱和吸收动力学特征, 吸收速率和水体氮磷浓度可用米式方程描述; (2)大叶藻植株对NH₄⁺-N的最大吸收速率(V_max, 52 μmol·g^-1·h^-1)显著高于其对NO₃^--N的V_max (39 μmol·g^-1·h^-1); (3)大叶藻地上组织和地下组织均可吸收氮磷, 但地上组织对氨态氮、硝态氮、磷酸盐的V_max分别为43.1、30.5和15.6 μmol·g^-1·h^-1, 为地下组织的2.6、1.2和6倍。结果表明, 大叶藻对氨态氮的吸收能力高于硝态氮, 且对氮磷的吸收可能主要依赖地上组织(叶片)。结果为查明大叶藻对氮磷的吸收利用机制及评估大叶藻的海洋生态效应提供了理论依据。     

CO2和硝氮加富对龙须菜(Gracilaria lemaneiformis)生长、生化组分和营养盐吸收的影响

为了探讨大气CO2和海水硝氮浓度升高对龙须菜生理特性的影响,在实验室条件下把藻体于CoNo、C No、CoN 和C N 4种不同CO2和硝氮供应水平的处理中进行培养,15d后,分别测定各种不同培养条件下藻体的生长、色素含量、可溶性蛋白含量和营养盐吸收速率.结果表明:CO2或硝氮浓度增加都会使藻体生长加快,但当二者同时加富时对生长的促进作用没有表现出协同效应.不管是高氮还是低氮的培养条件,高浓度CO2都能使藻体的色素和可溶性蛋白的含量降低,而使硝酸还原酶活性升高;同时,在硝氮加富的条件下,高浓度CO2培养能够显著提高藻体的营养盐吸收速率.不管是高还是低的CO2浓度培养条件下,硝氮浓度增加都会使藻体的色素和可溶性蛋白含量以及营养盐吸收速率得到显著提高.这些结果说明,在大气CO2浓度升高或海水富营养化条件下,龙须菜的生长、硝酸还原酶活性和营养盐吸收速率都可能得到促进,而色素和可溶性蛋白的含量也会受到影响.     

局部供磷对玉米根系生长、磷吸收速率的影响

玉米幼苗种子根局部供磷可明显改变根系的形态。供磷区侧根生长增加,无磷区侧极生长减少。供磷区1次、2次侧根长度与2次侧根数量明显增加;而1次侧根数量则不增加。供磷区缩小时,根系生长加快,单位根区磷吸收速率增加,但单位根重磷吸收速率的增加不很明显。磷局部供应植株主要通过供磷区根系的生长来增加磷的吸收,以满足植株对磷的需求。局部供磷植株中转运到供磷根区的光合产物明显多于无磷根区。     

氮、磷对水华发生的影响

简要介绍了水华的发生与氮、磷元素的关系,包括总氮、总磷的浓度、氮与磷的比值、以及氮、磷在水体中的存在形态等。同时提及水华发生是一个复杂的过程,只有经过多学科配合,进行多因子及其相互作用的综合性研究,才能真正揭示水华发生的杌理。     

不同磷浓度对玉米生长及磷、锌吸收的影响

在不同磷水平(0.1、1.0、5.0、10和100μmol·L^-1P)的水培液中培养玉米苗,测定不同培养时期玉米的生长和玉米植株对P、Zn吸收和利用效率.结果表明,玉米在100μmol·L^-1P的溶液中生长速率最大,而根冠比在0.1μmol·L^-1P的溶液中为最大.随着水培液中P水平的增加,植株对P的吸收速率增加,而利用效率降低;玉米根系含Zn量增加,而冠层含Zn量变化不大,说明增P使Zn在根内富集,Zn向冠层转移速率较小,玉米幼苗根系中P和Zn的浓度呈正相关关系.     

菹草（Potamogeton crispus）对水中氮、磷的吸收及若干影响因素

菹草（Ｐｏｔａｍｏｇｅｔｏｎ ｃｒｉｓｐｕｓ）对水中氮、磷的吸收与ｐＨ、光照、水温、根／茎生物量比及底泥间隙水与上覆水中营养盐浓度比有关。在ｐＨ为８．０－９．５、水温为１９－２８Ｃ的实验条件下,水中ＮＨ＿４－Ｎ浓度低于０．３５ｍｇ·１左右时;菹草茎、叶优先吸收ＮＯ＿３－Ｎ;水中ＮＨ＿４－Ｎ浓度大于０．３５ｍｇ·１￣（－１）左右时,菹草则优先吸收ＮＮ＿４－Ｎ,这一选择吸收与ＮＨ＿４－Ｎ／ＮＯ＿３－Ｎ比值无关。强光照、高温（３０℃）和高ｐＮ的协同作用严重影响菹草硝酸盐还原酶活性。在自然条件下,菹草根部主要从底泥中吸收ＮＨ＿４－Ｎ、ＰＯ＿４－Ｐ,对ＮＯ＿３－Ｎ吸收甚微;茎、叶主要从水层中吸收ＮＯ＿３－Ｎ,对ＰＯ＿４－Ｐ吸收甚少。一般情况下,浮游植物和菹草对水体中的氮、磷吸收无多大矛盾。菹草倒伏后腐败分解释放大量营养盐,为浮游植物的增殖创造了条件。     

Responses of the macroalga Gracilaria tenuistipitata var. liui (Rhodophyta) to iron stress

Chlorophyll (Chl), phycoerythrin (PE), total nitrogen (TN% dw) and Fein tissues were measured in Fe-deficient cultures of Gracilariatenuistipitata var. liui over a period of 60 days. ⁵⁵Fe uptakeand photosynthetic carbon fixation (NaH¹⁴CO³) werecompared in Fe-rich and Fe-deficient cultures and analyzed the effects ofFe-deficiency on the ultrastructure. The maximum carbon fixationdecreased significantly (p < 0.01) under Fe-deficiency. Thechlorophyll and phycoerythrin contents also declined with decreasing tissueiron content, falling, respectively, to 7.9 and 33.8% of their originallevel. Photosynthesis in Fe-deficient cells became light-saturated at lowerirradiance than the control. Total N in tissue decreased from 3.65 to2.49%. ⁵⁵Fe uptake rate for cultures grown on NO₃ ^-was measured following resuspension in either NH₄ ⁺ orNO₃ ^- as N source. Enhanced Fe uptake developedunder Fe stress, especially with cells resuspended in NH⁺ ₄-N medium. The Vmaxfor Fe uptake was higher with NH₄ ⁺ thanNO₃ ^- (62.8 versus 12.1 pmol mg dw^-1 h^-1). The requirement for N accelerates further Fe uptake. Ultrastructuralobservations of Fe-deficient cells showed reductions in chloroplast number,degeneration of lamellar organization, decrease in mitochondrial matrixdensity and variation in accumulation body number and morphology. During Fe-deficiency, the growth rate continued to decline and after 40days of iron deficiency, no further growth was detectable, and eventuallyiron deficiency resulted in chlorosis. The results suggest that the lowergrowth rate of Gracilaria tenuistipitata var. liui underFe-deficiency may result from largely from inhibition of photosynthesis andnitrogen utilization.     

Effect of salinity and pH on growth and agar yield of Gracilaria tenuistipitata var. liui in laboratory and outdoor cultivation

Acclimation responses of the red alga Gracilaria tenuistipitata var. liui collected on the northwest coast of Philippines were determined in laboratory setups and outdoor cultivation tanks in Haifa, Israel. Growth under laboratory conditions was influenced by all three variables studied, namely, temperature (20 or 30 ^°C), salinity (20, 30 or39‰) and seawater pH (6.5, 7.0, 8.0 or ≥ 9.0). In 250 mL flasks lacking pH control growth was influenced by temperature only at 20 ‰, whereas at 39 ‰, growth rates were similar at 20 or 30 ^°C. In 500 mL cylinders in which pH was controlled, growth rates were significantly different at a pH of 6.5 and 7.0 for all salinities, with maximal rates occurring in 39 ‰. At pH 8.0, and above, growth rates between salinities were similar and reduced to approximately 50% at a pH of 9.0 compared to rates at a pH of 6.5. Photosynthesis responses generally resembled growth responses both, in 250 mL and 500 mL cultures. In 40-L outdoor tanks, weekly growth and agar yields were apparently enhanced by increasing light intensities (up to full sunlight) and nutrient concentrations (up to 0.2 mM PO₃ ^2- and 2.0 mM NH₄ ⁺), and rates averaged four times higher than rates determined in the smaller flask cultures. This study shows broad salinity tolerance of G. tenuistipitata var. liui and its ability to sustain growth rates that are among the highest measured for Gracilaria spp. in outdoor cultures. This revised version was published online in August 2006 with corrections to the Cover Date.     

Effects of plant growth regulators on callus formation, growth and regeneration in axenic tissue cultures of Gracilaria tenuistipitata and Gracilaria perplexa (Gracilariales, Rhodophyta)

The effects of auxins and cytokinin on callus formation, growth and regeneration of Gracilaria tenuistipitata Chang et Xia and G. perplexa Byrne et Zuccarello (Gracilariales, Rhodophyta) are reported. Plant growth regulators (PGR) in concentrations ranging from 0.1 to 100.0 μmol of indole‐3‐acetic acid, 2,4‐dichlorophenoxyacetic acid (2,4‐D), and kinetin (K) were added to the ASP 12‐NTA solid medium (0.7% agar), and apical and intercalary segments (5 mm long) were inoculated as initial explants. K stimulated growth rates of intercalary segments of G. tenuistipitata in a linear relation, and 2,4‐D (1.0 μmol) and K (10.0 μmol) stimulated growth rates of apical and intercalary segments of G. perplexa, respectively. The simultaneous formation of apical, basal, and intermediate calluses is reported for the first time in axenic tissue cultures of red algae. With intercalary segments of G. tenuistipitata, basal callus induction rates were higher than those of apical and intermediate calluses in the majority of treatments, and auxins had stimulatory effects on the formation of all callus types. In apical segments of G. perplexa, intermediate callus formation was stimulated only by treatment with 1.0 μmol of K, while apical callus formation was stimulated by indole‐3‐acetic acid (1.0–10.0 μmol), 2,4‐D (10.0–100.0 μmol), or K (0.1 μmol). Intercalary segments of G. perplexa developed only intermediate calluses, and the majority of treatments with PGR stimulated higher rates than those presented by apical segments. Potential for regeneration (development of adventitious plantlets originated from callus cells) was higher in apical calluses than in basal and intermediate calluses developed in intercalary segments of G. tenuistipitata. Moreover, auxins and cytokinin were essential to the induction of regeneration in intermediate calluses, while specific concentrations stimulated regeneration from basal and apical calluses. Plant regeneration in G. perplexa was observed only after transferring calluses from solid to liquid medium, and the majority of treatments with PGR had stimulatory effects. Regenerating plants of G. perplexa developed tetrasporangia, and released tetraspores giving rise to adult gametophytes. Our results indicate that auxins and cytokinin have a regulatory role in the growth and morphogenesis in G. tenuistipitata and G. perplexa, and diversity of responses presented by both species is related to specific developmental systems.     

Effects of irradiance and salinity on the growth of carpospore-derived tetrasporophytes of Gracilaria edulis and Gracilaria tenuistipitata var liui (Rhodophyta)

Gracilaria edulis and Gracilaria tenuistipitata var liui are agarophytes with high commercial value which are currently cultivated in countries like India and Thailand. They have great potential for mariculture in Malaysia. Experiments were carried out to study carpospore germination and determine the effects of irradiance and salinity on the growth of these two species. Both species showed the Dumontia type of carpospore development. Both species showed increased daily growth rate (% day^?1) with increasing irradiance and tolerance for a wide range of salinity with a preference for low salinity. G. edulis grew best at 100 μmol photons m^?2 s^?1 and 15 psu while G. tenuistipitata var liui grew best at 60–130 μmol photons m^?2 s^?1 and 15 psu. The highest growth rate obtained for G. edulis and G. tenuistipitata var liui was 13.57 and 19.7 % day^?1 respectively. tenuistipitata var liui. ANOVA showed that both irradiance and salinity have significant effect on the growth of both species (P?<?0.05). The results showed that G. tenuistipitata var liui is a good candidate for mass cultivation in Malaysian brackish waters. Besides, this study also showed the feasibility of using spore culture to provide stocks for sustainable farming of Gracilaria.     

Effects of salinity,light intensity and sediment on growth,pigments, agar production and reproduction in Gracilaria tenuistipitata from Songkhla Lagoon in Thailand

The effects of salinity, light intensity and sediment on Gracilaria tenuistipitata C.F. Chang & B.M. Xia on growth, pigments, agar production, and net photosynthesis rate were examined in the laboratory under varying conditions of salinity (0, 25 and 33 psu), light intensity (150, 400, 700 and 1000 µmol photons m^?2 s^?1) and sediment (0, 0.67 and 2.28 mg L^?1). These conditions simulated field conditions, to gain some understanding of the best conditions for cultivation of G. tenuistipitata. The highest growth rate was at 25 psu, 700 µmol photons m^?2 s^?1 with no sediments, that provided a 6.7% increase in weight gain. The highest agar production (24.8 ± 3.0 %DW) was at 25 psu, 150–400 µmol photons m^?2 s^?1 and no sediment. The highest pigment contents were phycoerythrin (0.8 ± 0.5 mg g^?1FW) and phycocyanin (0.34 ± 0.05 mg g^?1 FW) produced in low light conditions, at 150 µmol photons m^?2 s^?1. The highest photosynthesis rate was 161.3 ± 32.7 mg O₂ g^?1 DW h^?1 in 25 psu, 400 µmol photons m^?2 s^?1 without sediment in the short period of cultivation, (3 days) and 60.3 ± 6.7 mg O₂ g^?1 DW h^?1 in 25 psu, 700 µmol photons m^?2 s^?1 without sediment in the long period of cultivation (20 days). The results indicated that salinity was the most crucial factor affecting G. tenuistipitata growth and production. This would help to promote the cultivation of Gracilaria cultivation back into the lagoon using these now determined baseline conditions. Extrapolation of the results from the laboratory study to field conditions indicated that it was possible to obtain two crops of Gracilaria a year in the lagoon, with good yields of agar, from mid‐January to the end of April (dry season), and from mid‐July to the end of September (first rainy season) when provided sediment was restricted.     

Comparative Analysis of the Complete Plastid Genome Sequence of the Red Alga Gracilaria tenuistipitata var. liui Provides Insights into the Evolution of Rhodoplasts and Their Relationship to Other Plastids

We sequenced to completion the circular plastid genome of the red alga Gracilaria tenuistipitata var. liui. This is the first plastid genome sequence from the subclass Florideophycidae (Rhodophyta). The genome is composed of 183,883 bp and contains 238 predicted genes, including a single copy of the ribosomal RNA operon. Comparisons with the plastid genome of Porphyra pupurea reveal strong conservation of gene content and order, but we found major genomic rearrangements and the presence of coding regions that are specific to Gracilaria. Phylogenetic analysis of a data set of 41 concatenated proteins from 23 plastid and two cyanobacterial genomes support red algal plastid monophyly and a specific evolutionary relationship between the Florideophycidae and the Bangiales. Gracilaria maintains a surprisingly ancient gene content in its plastid genome and, together with other Rhodophyta, contains the most complete repertoire of plastid genes known in photosynthetic eukaryotes.Supplementary material () is available for this article.[Reviewing Editor: Dr. W. Ford Doolittle]     

六盘山鸡爪大黄茎和叶多糖贮藏分布特征的研究

采用组织化学方法研究了六盘山鸡爪大黄茎和叶中大黄多糖贮藏和分布的特征。结果表明：大黄多糖在茎和叶内的贮藏部位各有特点,在茎中主要分布于皮层、维管束中韧皮部和木质部的薄壁细胞、髓射线和髓,随着茎的成熟大黄多糖有一定程度的增加;叶表皮、叶肉和叶脉中不同程度地分布着较少量的多糖;叶柄维管束外围的基本组织细胞中不同程度地分布着一定数量的大黄多糖,而维管束中分布较少。茎和叶中大黄多糖的贮藏和分布总体较少。     

六盘山鸡爪大黄根蒽醌类化合物组织化学定位的研究

采用组织化学方法研究了六盘山鸡爪大黄根蒽醌类化合物的组织化学定位特征及贮藏和积累的规律。结果表明：蒽醌类化合物在根内的贮藏是多位点的,在根周皮的木栓层和栓内层、次生维管组织的维管射线和根中央的部分木薄壁细胞内不同程度地贮藏和积累了一定数量的蒽醌类化合物,次生木质部的木射线和次生韧皮部的韧皮射线是主要贮藏和积累的部位,早期形成的维管射线中蒽醌类化合物的含量较晚期形成的射线含量高。     

对毛芽厚朴“新变种”的看法

本文通过对厚朴、凹叶厚朴和毛芽厚朴的研究,认为毛芽厚朴的建立不可靠,应归并到凹叶厚朴中。