水分和磷素对木荷不同种源苗木生长和磷效率的影响

以用木荷中心产区的浙江龙泉、福建建瓯、尤溪和江西吉安4个代表性优良种源为试验材料,以广西产红荷为对照,设置不同水分处理和磷素水平的盆栽试验,研究水分和磷素对木荷种源苗木生长和生理指标的影响.结果表明：在不同的水分和磷素处理下,4个参试种源的苗木生长、根系形态参数和磷素吸收效率等均存在显著的遗传差异,福建建瓯和浙江龙泉种源苗木生长量大、根系发达、磷素吸收效率高,生长表现明显优于福建尤溪和江西吉安种源,而广西产红荷则保持其原产地速生、抗旱、耐瘠的特性.土壤水分和磷素对木荷种源苗木生长影响显著.适宜水分条件下,种源苗木径生长、干物质量、根系参数和磷素吸收效率较干旱胁迫条件下高18.5%～105.6%,高磷水平下种源苗木上述性状较低磷处理高37.5%～286.2%.但在干旱和低磷胁迫下,木荷将光合产物更多地分配至地下根系,磷素利用效率也较高,这可能是木荷适应干旱和低磷胁迫的重要生理机制.相对于显著的种源、水分和磷素主效应,其间的交互作用则可以忽略.     

模拟氮沉降对低磷胁迫下马尾松无性系细根形态和氮磷效率的影响

根系是植物吸收土壤营养的关键部位, 不同径级根系的形态和功能差异不仅与植株自身的遗传因素有关, 而且受到土壤中营养元素分布和水平的影响。在我国亚热带高氮沉降和酸性红壤磷匮乏及不均一的土壤环境下, 研究林木不同径级根系对外界营养环境变化的响应有利于深入了解林木根系的觅养机制及规律。该文以马尾松(Pinus massoniana)无性系19-5 (高磷效率)和21-3 (低磷效率)为材料, 在同质低磷和异质低磷两种盆栽处理下, 设置3个氮水平(对照、中氮和高氮)的模拟氮沉降实验。结果表明: 1)马尾松无性系苗木的生长受磷环境、氮水平和无性系三因素共同影响, 模拟氮沉降显著促进了异质低磷下马尾松苗高和整株干物质量的增加, 而在同质低磷下氮效应不显著; 在异质低磷、高氮下, 无性系19-5的苗高和整株干物质量分别是无性系21-3的1.1倍和1.6倍。2)马尾松各径级细根长度和表面积随径级增大而减小, 模拟氮沉降促进了直径≤1.5 mm的细根的增生发育, 直径1.5-2.0 mm的细根和>2.0 mm的较粗根无明显变化; 另外, 直径≤1.5 mm的细根长度占总根长的比例保持在90.4%-92.8%范围内, 受氮影响较小。3)模拟氮沉降显著提高了异质低磷下无性系19-5≤1.5 mm的细根长度和表面积, 同时, 其根系氮、磷吸收效率较对照分别高出93.3%和148.4%; 无性系21-3的根系氮、磷吸收效率受氮影响较小; 根系氮、磷利用效率均无显著变化。上述结果表明, ≤1.5 mm的细根的增生发育和氮、磷吸收效率的提高可能是磷高效马尾松无性系应对高氮低磷环境的重要响应机制。     

异质养分环境下邻株竞争对3个木荷种源干物质积累及氮磷效率的影响

为了探究不同木荷种源混交林和纯林生产力差异原因,采用盆栽试验,模拟异质和同质性森林土壤环境,并设计木荷单植、双株纯植和与杉木混植3种栽植模式,重点研究了异质养分环境下邻株竞争对3个木荷种源(福建建瓯、江西信丰和浙江龙泉种源)干物质积累及氮磷效率的影响。结果表明:与同质养分环境相比,木荷种源在异质养分环境中具有干物质量大,氮、磷吸收效率高的特点,尤以福建建瓯种源优势最大。邻株竞争对木荷种源的干物质量和氮、磷吸收效率影响显著。在异质养分环境中,与杉木邻株竞争时,木荷福建建瓯种源干物质积累量优于单植和双株纯植模式。这与其根冠比和生理可塑性较强有关,混植时,其根冠比明显降低,将更多的干物质分配至叶片,增强了光合能力;同时氮、磷吸收效率也显著提高,进而积累了较高的干物质量,提高了竞争力。相反,混植时江西信丰和浙江龙泉种源氮和磷吸收效率却不同程度地低于其单植或与之相近,根冠比较高,结果影响了干物质积累。同种邻株竞争虽促进了浙江龙泉和江西信丰种源的氮、磷吸收,但抑制了两元素的利用效率,而福建建瓯种源氮、磷效率受影响较小,且明显高于其他种源,从而形成较高的干物质量。以上研究结果表明,福建建瓯种源较高的生物量分配和生理可塑性是其生产力高和生长竞争优势明显主要原因。     

不同种源油松幼苗的光合色素和非结构性碳水化合物对模拟氮沉降的短期响应

以不同种源(内蒙NM、北京BJ和山西SX)的3年生油松幼苗为研究对象,研究不同种源油松幼苗的光合色素以及非结构性碳水化合物(NSC)对氮沉降增加的短期响应。实验中设置5个氮处理:CK(0 kg hm-2a-1)、N1(15 kg hm-2a-1)、N2(25 kg hm-2a-1)、N3(50 kg hm-2a-1)、N4(150 kg hm-2a-1)。研究结果表明:(1)不同生长季,3个种源油松幼苗的光合色素对氮沉降增加的响应存在差异,但是只有BJ种源油松幼苗的叶绿素含量在生长季中期受到了氮沉降增加的显著促进作用,并在N4水平下达到最大值。(2)氮沉降的增加促进了3个种源油松幼苗NSC的转移和消耗,在生长季初期和中期,随着氮沉降水平的升高,3个种源油松幼苗的可溶性糖(SS)含量、淀粉(ST)含量以及总非结构性碳水化物(TNC)含量呈不同程度的降低。生长季末期,3个种源油松幼苗的SS和TNC明显积累。N4水平抑制了NM种源油松幼苗SS和BJ种源油松幼苗ST的累积,促进了NM种源油松幼苗ST含量和BJ种源油松幼苗SS含量的提高。氮沉降的增加显著抑制了SX种源油松幼苗NSC的积累,延长了幼苗的生长期,推迟了幼苗进入休眠的时间。     

模拟氮沉降和不同外生菌根真菌侵染对樟子松幼苗生长的影响

盆栽条件下,采用单接种Suillus bovines(以下简称SB)和混合接种(Suillus luteus、Suillus grevillea、Tricholoma fulvum、Boletinus grisellus、Suillus bovinus、Leucocortinarius bulbiger、Rhizopogon luteolus、Pisolithus tinctorius 8个菌种的等量混合菌剂接种,以下简称HJ)方法对樟子松(Pinus sylvestris var.mongolica)2个月幼苗进行接种处理,幼苗生长6个月形成菌根后对樟子松幼苗进行模拟氮沉降实验,5个月后通过测定幼苗生长指标、根系形态结构和菌根侵染率,旨在探讨模拟氮沉降对樟子松不同接种处理幼苗生长的影响。结果表明:①随着氮浓度的增加,单接种乳牛肝(SB)和混合接种(HJ)菌根侵染率均呈下降趋势,且氮沉降对SB处理的菌根侵染率影响更显著。②接种显著促进幼苗地上和地下生物量积累,且混合接菌效果更好;同一接菌处理中,氮浓度增加对地上生物量的积累有抑制作用;接种和氮浓度对地径和地上生物量有显著交互作用,但对苗高和地下生物量无交互作用。③HJ处理中不施氮(CKN)和1倍氮浓度(CN)较不接菌(CK)和SB处理显著促进幼苗根系的平均直径、总根长和总表面积;氮浓度增加显著促进CK和SB处理的幼苗根系平均直径、总根长和总表面积,但是对HJ处理的根系各形态结构指标均产生抑制作用。接种和氮浓度以及两者的交互作用均极显著影响幼苗根系形态结构。     

不同养分环境下木荷种源生长和根系发育对邻株竞争响应的差异

研究同质和异质养分环境中邻株竞争对3个木荷种源生长和根系发育的影响,揭示了不同种源木荷生长竞争能力差异原因.结果表明: 与同质养分环境相比,3个木荷种源在异质养分环境中具有苗高生长量大、干物质积累量高和根系增生明显等特点.在异质养分环境下,福建建瓯种源木荷苗木生长量显著高于浙江龙泉和江西信丰种源,与杉木混植时尤为突出,这与其根系形态可塑性高和拓殖能力强有关,混植时,福建建瓯种源木荷的根长、根表面积和根体积等根系生长量较单植显著增长20.4 %～69.0%,其根系在富养表层大量增生的同时快速向深层贫养层拓殖,占有了更多的空间和资源,提高了觅养能力,使其生长优势更为明显,而浙江龙泉和江西信丰种源根系生长和深层土壤根系分布受邻株竞争影响不同程度的降低.纯植时,可能由于根系自我识别作用,3个木荷种源的根系生长发育均受到抑制,导致福建建瓯种源苗木生长量显著减小,而浙江龙泉种源苗高和干物质积累增长明显,这与其根系生理可塑性有关.建议生产上选用觅养效率高和竞争能力强的福建建瓯种源木荷,采用混交造林的方式提高木荷人工林生产力.     

光照强度和氮水平对白三叶幼苗生长与光合生理特性的影响

采用植物生长箱溶液培养方式,对白三叶幼苗进行了不同光强(2个水平)和氮浓度(5个水平)处理,探讨其生长、生物量和光合生理特征对生境变化的响应.结果表明:两种光强下白三叶幼苗茎和叶生物量随氮素浓度呈先升高后降低,而根系生物量和根冠比则随氮素浓度增高而降低.光照强度降低使白三叶幼苗根、茎、叶和整株生物量分别降低67.8%、29.9%、42.5%和45.2%;低光处理使幼苗的根冠比显著下降,而比叶面积(SLA)明显提高.幼苗根系体积随氮素浓度增高而降低,高生长光强根系体积显著高于低生长光强下的白三叶.幼苗根系表面积、根系长度和根系直径随氮素浓度增加呈先增加后降低趋势,两种不同生长光强下幼苗根系长度和根系直径差异显著,而根系表面积差异不明显.白三叶叶片光合速率(Pn)随氮素浓度增加呈先增加后降低趋势,高生长光强白三叶Pn显著高于低生长光强下的白三叶.两种生长光强间叶片气孔导度(Gs),胞间CO2浓度(Ci)和蒸腾速率(Tr)无显著差异,但氮素浓度对叶片Gs、Ci和Tr均有显著影响.光、氮及其交互作用对白三叶幼苗生长发育产生了显著影响,光照不足和氮缺乏都将导致白三叶幼苗生长减弱,但幼苗对这些不利环境具有较强的调节和适应能力.     

纯化腐植酸对氮胁迫下黄瓜幼苗生长和氮代谢的影响

为研究纯化腐植酸(PHA)在不同水平氮胁迫下对黄瓜植株生长和氮代谢的影响,探明PHA对逆境胁迫的缓解作用机制,采用水培方式,选用新泰密刺为供试品种,以正常氮水平(11 mmol·L^-1 NO₃^-)为对照,进行低氮(1.0 mmol·L^-1 NO₃^-)和高氮(101 mmol·L^-1 NO₃^-)胁迫处理,研究纯化腐植酸对氮胁迫下黄瓜幼苗生长和氮代谢的影响.结果表明: 低氮和高氮胁迫均抑制了黄瓜幼苗生长,株高、茎粗、叶面积、干物质积累量均低于正常氮水平处理.施用纯化腐植酸促进了正常氮水平及低氮胁迫下黄瓜干物质积累,在高氮胁迫下差异不显著.PHA影响了黄瓜幼苗NO₃^-的吸收,呈低氮下促进、高氮下抑制吸收的趋势;PHA显著降低了低氮、高氮胁迫下根系和叶片中的铵态氮含量;与正常氮水平相比,低氮、高氮胁迫下根系和叶片的硝酸还原酶(NR)、谷氨酰胺合成酶(GS)、谷氨酸合酶(GOGAT)、谷氨酸脱氢酶(GDH)活性及根系中亚硝酸还原酶(NiR)活性均显著降低,PHA不同程度地提高了NR、NiR、GS、GOGAT、GDH活性,还提高了根系和叶片中游离氨基酸、可溶性蛋白的含量.综上,添加PHA缓解了氮胁迫对黄瓜幼苗生长的抑制作用.     

空气断根对侧柏实生苗生物量分配和根系生长的影响

为探求林木幼苗生物量分配和根系生长对空气断根的响应,以侧柏(Platycladus Orientalis)实生苗为材料,设置空气断根(T)和不断根(CK)处理,研究了空气断根10、30 d和50 d后对侧柏生物量、根系形态特征及吸收面积的影响。结果表明:(1)T处理的侧柏幼苗地上生物量、根生物量、总生物量、根长、根表面积、根体积及根尖数在断根10、30 d和50 d后均大于CK,且显著扩大了根系总吸收面积和活跃吸收面积。(2)空气断根显著影响了侧柏实生苗的生物量分配格局,其根冠比在整个试验阶段呈先增大后减小的趋势,而CK逐渐减小。(3)两种处理的侧柏幼苗根系直径集中在0-0.5 mm。与CK相比,T处理侧柏随空气断根时间延长,单株根系直径在0-0.5 mm的根数量急剧增多,占总根尖数的79%,根平均长度、根表面积、根体积和根尖数显著增大。(4)生物量参数和根形态参数之间关系密切。根生物量与地上生物量及总生物量呈显著正相关(P0.05)。除根系平均直径外,根生物量、地上生物量和总生物量分别与根长、根表面积、根体积、根尖数呈显著正相关,根冠比与地上生物量呈负相关。因此,空气断根有效改善了侧柏幼苗的根系形态特征,提高了吸收面积,显著促进侧柏实生苗在生长早期快速发育。     

樟树(Cinnamomum camphora)幼苗细根形态对氮磷添加和幼苗密度的响应

全球氮沉降对森林生态系统结构和功能的影响已成为现代生态学研究热点之一,我国华南地区氮沉降的增长引起了土壤酸化和磷限制加剧等一系列生态问题。密度制约着植物个体对环境资源的吸收利用,是自然界中十分重要的选择压力之一。因此研究樟树(Cinnamomum camphora)幼苗的细根形态对氮磷添加和密度的响应,有利于了解亚热带树木根系对氮沉降和磷添加与林分密度的响应过程和机制,并为全球变化背景下樟树林生态系统的管理提供依据。本研究以1年生樟树幼苗为试验材料,选择氯化铵(NH_4Cl)作为氮肥以模拟大气氮沉降,并且以二水合磷酸二氢钠(NaH_2PO_4·2H_2O)模拟磷添加,氮磷处理设置4个水平,即对照、施N、施P和施N+P;种植密度设置10、20、40和80株/m~2 4个水平。测定各处理樟树幼苗细根的根长、表面积、体积和根尖数,分析氮磷添加、密度和两者交互作用对樟树幼苗细根的影响。研究结果表明,与对照处理相比,N、P和N+P处理促进了幼苗细根长度、表面积、体积以及根尖数的增加。低密度条件下的N添加对幼苗根系形态的促进效果强于P添加。N+P处理对10、20、40株/m~2幼苗根系形态的促进效果最佳,而各处理对80株/m~2幼苗根系形态的促进效果均无显著性差异。随着种植密度的增大,幼苗细根长度、表面积、体积和根尖数均减少。樟树幼苗的细根长度、表面积、体积和根尖数在各密度间和不同氮磷添加处理间均有显著性差异,密度和氮磷处理间的交互作用对根系形态各指标均无显著影响。     

六种藓类植物茎的比较解剖学研究

通过对6种藓类植物,即褶叶青藓(Brachythecium salebrosum(Web.et Mohr.)B.S.G.)、湿地匐灯藓(Plagiomnium acutum(Lindb.)Kop.)、侧枝匐灯藓(Plagiomnium maximoviczii(Lindb.)Kop.)、大凤尾藓(Fissidensnobilis Griff.)、大羽藓(Thuidium cymbifolium(Doz.et Molk.)B.S.G.)和大灰藓(Hypnum plumaeforme Wils.)嫩茎和老茎的石蜡切片和显微观察发现,同一藓类植株的嫩茎和老茎,茎结构稳定,不同种藓类植物茎横切面具有不同特征.植物体茎横切面形状、表层细胞的层数、细胞大小和细胞壁厚薄、皮层细胞大小和形状、中轴的有无以及比例等特征可以作为藓类植物的分科分类依据之一.     

Photoregulation of seed germination of wild-type and of an aurea-mutant of tomato

Seed germination of an aurea mutant of tomato ( Lycopersicon esculentum Mill.) is promoted by continuous irradiation with red, far-red or long-wavelength far-red (758 nm) light as well as by cyclic irradiations (5 min red or 5 min far-red/25 min darkness). Far-red light applied immediately after each red does not change the germination behaviour. Seed germination of the isogenic wild-type, cv. UC-105, is promoted by continuous and cyclic red light while it is inhibited by continuous and cyclic far-red light and by continious 758 nm irradiation. Far-red irradiation reverses almost completely the promoting effect of red light. The promoting effect (in the aurea mutant) and the inhibitory effect (in the wild-type) of continuous far-red light do not show photon fluence rate dependency above 20 nmol m⁻² s⁻¹. It is concluded that phytochrome controls tomato seed germination throgh low energy responses in both the wild type and the au mutant. The promoting effect of continuous and cyclic far-red light in the au mutant can be attributed to a greater sensitivity to P_fr.     

Cause of Senescence of Nine Sorts of Flowers

The levels of endogenous phytohormones and respiratory rate in nine sorts of flowers such as Cymbidium faberi Rolfe, Nopalxochia ackermannii Kunth and others were investigated both at full bloom and senescence and meanwhile the effect of exogenous phytohormones on prolonging the blossoms and promoting ethylene production were tested. There is a high content of endogenous ethylene in all the long-lived flowere, about 3–16 folds higer than the short-lived ones. There is a high level of ABA at full blooming flowers of short-lived flowers, in which there is no or only some cytokinins in it, but the ratio of CTK (6BA+zeatin)/ABA is smaller(l.7). The endogenous ABA reached a much higher level at senescence in all nine sorts of flowers, so it is reasonable to consider that it is ABA which plays an important role of regulation in controlling flower's senescence. There is a much higher level of GA3 and zeatin in the long-lived flowers which is not demonstrated in the shortlived ones. The respiratory rate is one of the factors controtling the longevity of flowers, but it does not play a decided role. Application of 6BA and zeatin prolongs distinctly orchid’s longevity, however exogenous IAA through the promotive action on ethylene production, evidently extends the longevity of the flowers of the Nopalxochia ackermannii Kunth.     

龙胆科药用植物化学成分的研究现状

龙胆科植物在我国的分布范围很广,且多数为药用植物,其多数种属的药用植物,至今其化学成分尚未被系统研究。综述了目前龙胆科药用植物的化学成分的研究现状及一般提取方法,对近年来发现的环烯醚萜及裂环烯醚萜类化合物进行了总结,为本科药用植物的更深入研究提供了参考。     

Interconnection of parameters of regulation system of lipid peroxidation and of morphophysiological parameters of mouse liver

A complex analysis of seasonal fluctuations of the mean group parameters of the system of regulation of lipid peroxidation has been performed in liver of Balb/c mice. Association of lipid characteristics and morphophysiological parameters is studied in the Balb/c mouse liver. An inter-connection is revealed between the liver index and the amount of lysoforms of phospholipids, the scale and character of the interconnection differing essentially depending on proportion of phos-phatidylcholine in mouse liver phospholipids.     

The effects of glutamine of the maintenance of embryogenic cultures of Cryptomeria japonica

Summary Embryogenic tissues of sugi (Cryptomeria japonica) were induced on a modified Campbell and Durzan (CD) medium containing 1 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 600 mg l⁻¹ glutamine, and subcultured in the medium of the same composition for over 1 yr. This resulted in a mixed culture of embryogenic and non-embryogenic cells. When embryogenic cells were isolated and cultured independently, their capacity to form embryogenic aggregates was lost. Thus, the non-embryogenic cells present within a mixed culture system were essential to the formation of embryogenic aggregates. When embryogenic tissues were isolated and cultured independently on a high glutamine-containing (2400 mg l⁻¹) medium, dry weights and endogenous levels of glutamine increased, and the tissue could generate a large number of embryogenic aggregates. Amino acid analysis of embryogenic and non-embryogenic cells from the maintenance culture indicated a higher level of glutamine was present in the latter. The high endogenous level of glutamine in the non-embryogenic portion of mixed cell masses may be the supplier of glutamine for maintaining the embryogenic property of the tissues.     

Specificity of action of piperidylcholine derivatives as substrates of cholinesterases of various origin

The review deals with study of enzymologic properties of a novel highly specific acetylcholinesterase substrate, N-(β-acetoxyethyl) piperidinium iodomethylate (“piperidylcholine”), and its 30 derivatives that were tested as effectors of cholinesterases of mammals and various species of Pacific squids. It was proven for the first time that responsible for specificity of action was structure of cyclic ammonium grouping of the alcohol part of molecule of the ester substrate. Analysis of specificity is performed based on enzymatic hydrolysis parameters—activity of catalytic center of cholinesterases and bimolecular constant of the reaction rate that are determined at optimal and low substrate concentrations. Among the specially synthesized group of thioester compounds there is revealed one more highly specific acetylcholinesterase substrate—N-(β-acetoxyethyl) piperidinium.     

Physiological characteristics of various species of strains of carboxydobacteria

Seven strains of aerobic carbon monoxide-oxidizing bacteria (carboxydebacteria) when growing on CO as sole source of carbon and energy had doubling times which ranged from 12–42 h. The activity profiles obtained after discontinuous sucrose density gradient centrifugation indicated that the CO-oxidizing enzymes are soluble and the hydrogenases are membrane-bound in all strains examined. The CO-oxidizing enzymes of Pseudomonas carboxydohydrogena, Pseudomonas carboxydoflava, Comamonas compransoris, and the so far unidentified strains OM2, OM3, and OM4 had a molecular weight of 230,000; that of Achromobacter carboxydus amounted to 170,000. The molecular weights of the CO-oxidizing and H₂-oxidizing enzymes turned out to be identical. The cell sonicates were shown to catalyze the oxidation of both CO and H₂ with methylene blue, thionine, phenazine methosulfate, toluylene blue, dichlorophenolindophenol, cytochrome c or ferricyanide as electron acceptors. Methyl viologen, benzyl viologen, FAD⁺, FMN⁺, and NAD(P)⁺ were not reduced. The spectrum of electron acceptors was identical for all strains tested. Neither free formate, hydrogen nor oxygen gas were involved in the CO-oxidation reaction. Methylene blue was reduced by CO at a 1:1 molar ratio. The results indicate that CO-oxidation by carboxydobacteria is catalyzed by identical or similar enzymes and that the reaction obeys the equation CO+H₂OCO₂+2H⁺+2e^- as previously shown for Pseudomonas carboxydovorans.Dedicated to Otto Kandler remembering almost three decades of enjoyable cooperation     

Modulation of allostery of pyruvate kinase by shifting of an ensemble of microstates

Since the introduction of the concepts of allostery about four decades ago, much advancement has been made in elucidating the structure-function correlation in allostery. However, there are still a number of issues that remain unresolved. In this review we used mammalian pyruvate kinase (PK) as a model system to understand the role of protein dynamics in modulating cooperativity. PK has a triosephosphate isomerase (TIM)(α/β)₈ barrel structural motif. PK is an ideal system to address basic questions regarding regulatory mechanisms about this common (α/β)₈ structural motif. The simplest model accounting for all of the solution thermodynamic and kinetic data on ligand-enzyme interactions involves two conformational states, inactive E^T and active E^R. These conformational states are represented by domain movements. Further studies provide the first evidence for a differential effect of ligand binding on the dynamics of the structural elements, not major secondary structural changes. These data are consistent with our model that allosteric regulation of PK is the consequence of perturbation of the distribution of an ensemble of states in which the inactive E^T and active E^R represent the two extreme end states. Sequence differences and ligands can modulate the distribution of states leading to alterations of functions. The future work includes: defining the network of functionally connected residues; elucidating the chemical principles governing the sequence differences which affect functions; and probing the nature of mutations on the stability of the secondary structural elements, which in turn modulate allostery.