南亚热带常绿阔叶林4个树种对增温的生理生态适应能力比较

以红枝蒲桃(Syzygium rehderianum)、海南红豆(Ormosia pinnata)、红锥(Castanopsis hystrix)和木荷(Schima superba) 4种南亚热带常绿阔叶林典型树种为研究对象, 采用红外-箱式增温的方法, 研究4个树种叶片气孔性状(表征气孔调节能力)、叶片解剖结构(表征叶片组织调节能力)和光合特征(表征养分维持能力)对增温的响应情况, 比较不同树种在增温背景下的生理生态适应能力, 为预测该地区森林植物在全球变暖情形下的生长变化趋势提供理论依据。结果表明: 增温后, 红枝蒲桃叶片海绵组织厚度减小, 且光合氮利用效率(PNUE)和光合磷利用效率(PPUE)降低; 海南红豆气孔导度增大、气孔密度减小以及叶片厚度和栅栏组织厚度减小, 同时光合速率、PNUE和PPUE升高; 红锥气孔大小缩小, 但光合速率不变; 木荷气孔增大而密度减小, 栅栏组织厚度减小, 光合速率、PNUE和PPUE降低。综上所述, 红枝蒲桃、海南红豆和木荷能够通过降低叶片厚度来适应高温环境, 不同物种的气孔调节、养分维持、光合速率和光合养分利用效率对增温的响应存在差异。增温有利于固氮植物海南红豆的生长, 但不利于传统优势树种木荷和红枝蒲桃的生长。因此, 在未来气候变暖的情况下, 固氮植物海南红豆由于具有较强的适应能力, 在南亚热带常绿阔叶林中可能会取代木荷和红枝蒲桃等成为新的优势树种。     

增温对南亚热带常绿阔叶林4种幼树生长和碳氮磷化学计量特征的影响

为了解不同物种在气候变暖条件下的生长及养分利用策略,研究选取南亚热带常绿阔叶林4种具代表性的典型乔木树种幼苗（1年生）木荷（Schima superba）、红锥（Castanopsis hystrix）、红枝蒲桃（Syzygium rehderianum）和海南红豆（Ormosia pinnata）为研究对象。采用红外-箱式增温的方法（2016年1月至2018年12月期间,年平均气温升高2.26℃,P<0.05）,研究了4种幼苗生长以及各器官中C、N、P化学计量特征和非结构性碳水化合物（NSC）含量对增温的响应。结果表明：增温促进了红锥和海南红豆（除2017年6月）的生长,但降低了木荷（增温1年后）和红枝蒲桃的生长（P<0.05）。增温显著降低了木荷细根、红锥茎干和海南红豆枝的P含量（P<0.05）,与对照相比,分别降低了1.91%、18.70%和46.07%。增温增加了固氮物种海南红豆细根N含量,但降低了其叶片N含量（P<0.05）,增温对其它树种N含量无显著影响。木荷茎干N∶P和海南红豆的细根N∶P在增温下分别升高了30.42%和90.29%（P<0.05）。此外,增温显著升高了木荷和红枝蒲桃叶片的可溶性糖含量（P<0.05）。以上结果表明,增温对南亚热带常绿阔叶林植物的影响存在种间差异,木荷和红枝蒲桃在增温条件下生长受限,但促进了红锥和海南红豆的生长,未来气候变暖可能会改变该生态系统的养分竞争平衡,进而可能会改变群落组成。     

CO_2浓度升高和氮沉降对南亚热带主要乡土树种及群落生物量的影响

选取荷木、海南红豆、肖蒲桃、红鳞蒲桃和红锥 5 种南亚热带乡土树种构建混交群落,通过 5 年人为提高 CO2 浓度和氮输入试验,研究碳-氮交互作用对南亚热带主要乡土树种及群落的生物量积累与分配的影响. 结果表明: CO2 浓度升高及氮沉降对植物生物量的积累和分配的影响因树种不同而有显著差异. CO2 浓度升高和氮沉降对豆科植物生物量积累相对提高了 49. 3%和 71. 0%,且促进了阳生植物生物量的积累; 氮沉降能显著提高偏阴生植物生物量积累,但在 CO2 浓度升高条件下,其生物量积累低于对照. CO2 浓度升高抑制了阳生植物地下生物量的分配,但促进偏阴生植物地下生物量的分配. CO2 浓度升高、氮沉降以及碳-氮交互作用对南亚热带植物群落生物量积累均具有促进作用; CO2 浓度升高促进群落地下生物量积累,氮沉降显著提高其地上部分生物量分配. 在全球变化背景下,南亚热带林业固碳树种适宜选用海南红豆和红锥.     

南亚热带红锥和马尾松人工林生长对穿透雨减少的响应

为了预测和评估全球气候变化背景下森林生长和生产力对降水格局变化和季节性干旱的响应,以南亚热带红锥和马尾松人工林为对象,设置穿透雨减少50%和不减雨(对照)处理,开展连续3年(2015-2017年)的模拟试验,研究降雨减少对人工林胸径生长、凋落物量和叶面积指数的影响.结果表明: 与对照相比,穿透雨减少导致红锥2017年胸径增长量显著降低31.8%,而对马尾松无影响;红锥叶面积指数平均降低8.8%,马尾松叶面积指数降低7.2%或者不变;红锥林2015年枝凋落量和2017年凋落物总量分别增加29.6%和35.8%,马尾松林2015年其他树种(除了马尾松以外)叶凋落量显著减少50.7%,而其他凋落物组分无显著变化.短期穿透雨减少对人工林产生了干旱胁迫作用,这种作用存在年际变异和树种差异.     

CO2浓度升高与氮沉降对南亚热带森林生态系统植物生物量积累及分配格局的影响

CO2浓度升高与氮沉降增加对陆地生态系统的耦合作用已成为全球变化的研究热点。应用大型开顶箱 (OTC) 人工控制手段研究了人工生态系统在1) 高CO2 (700±20μmol·mol-1) +高氮沉降 (100kg N·hm-2·a-1) (CN) ;2) 高CO2 (700±20μmol·mol-1) +背景氮沉降 (C+) ;3) 高氮沉降 (100kg N·hm-2·a-1) +背景CO2 (N+) ;4) 背景CO2+背景氮沉降处理 (CK) 4种处理条件下荷木 (Schima superba) 、红锥 (Castanopsis hystrix) 、海南红豆 (Ormosia pinnata) 、肖蒲桃 (Acmena acuminatissima) 、红鳞蒲桃 (Syzygium hancei) 等主要南亚热带森林植物的生物量积累模式及其分配格局。连续近3年的实验结果表明:不同处理条件下, 各参试植物生物量积累具有不同的响应特征, N+处理显著促进荷木、肖蒲桃及红鳞蒲桃生物量的积累;C+处理显著促进肖蒲桃、海南红豆生物量的积累;CN处理显著促进除红锥外其他物种生物量的积累, 并且具有两者单独处理的叠加效应。不同处理改变物种生物量的分配模式, N+处理降低植物的根冠比, 促进地上部分生物量的积累;C+处理增加红锥和红鳞蒲桃地下部分生物量的分配, 却促进荷木和海南红豆地上部分的积累;CN处理仅促进红磷蒲桃地下部分的积累。群落生物量的积累与分配格局取决于优势物种的生物量及其分配格局在群落中所 占的权重。     

CO2浓度升高和氮沉降对南亚热带主要乡土树种及群落生物量的影响

选取荷木、海南红豆、肖蒲桃、红鳞蒲桃和红锥5种南亚热带乡土树种构建混交群落,通过5年人为提高CO₂浓度和氮输入试验,研究碳-氮交互作用对南亚热带主要乡土树种及群落的生物量积累与分配的影响.结果表明：CO₂浓度升高及氮沉降对植物生物量的积累和分配的影响因树种不同而有显著差异.CO₂浓度升高和氮沉降对豆科植物生物量积累相对提高了49.3%和71.0%,且促进了阳生植物生物量的积累;氮沉降能显著提高偏阴生植物生物量积累,但在CO₂浓度升高条件下,其生物量积累低于对照.CO₂浓度升高抑制了阳生植物地下生物量的分配,但促进偏阴生植物地下生物量的分配.CO₂浓度升高、氮沉降以及碳-氮交互作用对南亚热带植物群落生物量积累均具有促进作用;CO₂浓度升高促进群落地下生物量积累,氮沉降显著提高其地上部分生物量分配.在全球变化背景下,南亚热带林业固碳树种适宜选用海南红豆和红锥.     

CO2浓度升高与氮沉降对南亚热带森林生态系统植物生物量积累及分配格局的影响

 CO₂浓度升高与氮沉降增加对陆地生态系统的耦合作用已成为全球变化的研究热点。应用大型开顶箱(OTC)人工控制手段研究了人工生态系统在1)高CO₂(700±20 μmol·mol^–1)+高氮沉降(100 kg N·hm^–2·a^–1)(CN); 2)高CO₂(700±20 μmol·mol^–1)+背景氮沉降(C＋); 3)高氮沉降(100 kg N· hm^–2·a^–1)＋背景CO₂(N＋); 4)背景CO₂＋背景氮沉降处理(CK) 4种处理条件下荷木 (Schima superba)、红锥(Castanopsis hystrix)、海南红豆(Ormosia pinnata)、肖蒲桃(Acmena acuminatissima)、红鳞蒲桃(Syzygium hancei)等主要南亚热带森林植物的生物量积累模式及其分配格局。连续近3年的实验结果表明: 不同处理条件下, 各参试植物生物量积累具有不同的响应特征, N＋处理显著促进荷木、肖蒲桃及红鳞蒲桃生物量的积累; C＋处理显著促进肖蒲桃、海南红豆生物量的积累; CN处理显著促进除红锥外其他物种生物量的积累, 并且具有两者单独处理的叠加效应。不同处理改变物种生物量的分配模式, N＋处理降低植物的根冠比, 促进地上部分生物量的积累; C＋处理增加红锥和红鳞蒲桃地下部分生物量的分配, 却促进荷木和海南红豆地上部分的积累; CN处理仅促进红磷蒲桃地下部分的积累。群落生物量的积累与分配格局取决于优势物种的生物量及其分配格局在群落中所占的权重。     

土壤增温调节中亚热带森林更新初期植物生物量分配格局

全球变暖提高了温带森林生态系统植物的生产力,但对亚热带森林生产力的影响仍然不清楚。由于亚热带森林植物的碳储量巨大,因此了解全球变暖对亚热带森林植物生长的影响至关重要。采用加热电缆模拟土壤增温(+5℃),探讨中亚热带森林几种主要草本植物和木本植物的生长及其生物量分配格局对温度升高的响应。结果表明:增温显著增加五节芒(Miscanthus floridulus)、山油麻(Trema dielsiana)和东南野桐(Mallotus lianus)的高度,但黑莎草(Gahnia tristis)高度显著降低。增温显著增加木本植物的地上、地下和总生物量,而草本植物的地上、地下和总生物量均显著降低。增温对整个群落的地上和地下部分生物量分配模式无显著影响,但木本植物总生物量在各器官之间分配随温度发生改变,增温显著提高木本植物枝生物量比(BMR),降低干生物量比(SMR),而叶生物量比(LMR)和根生物量比(RMR)无显著影响,但显著降低了细根占总根系生物量比率。结果表明木本植物能够通过调节生物量分配模式应对未来全球气候变暖。     

减雨对南亚热带马尾松人工林凋落物分解的影响

为探究气候变化背景下降雨格局改变对马尾松人工林凋落物分解及养分释放过程的影响,以南亚热带马尾松(Pinus massoniana)人工林为研究对象,设置穿透雨减少50%和不减雨(对照)处理,开展连续观测野外降水控制实验。采用凋落物分解袋法,研究了减雨处理对南亚热带马尾松人工林凋落叶分解速率及养分释放的影响,以及凋落叶分解速率的影响因素。结果表明:凋落叶分解2年后,减雨处理和对照林凋落叶残留率分别为38.09%和38.06%;凋落叶分解过程中碳元素表现为淋溶-富集-释放,而氮元素表现为富集,减雨50%在一定程度上促进了氮的富集,但未达到显著水平。相关分析表明,凋落叶的残留率与氮浓度和月积温呈显著负相关,与碳/氮呈显著正相关。本研究发现,减雨50%并未改变马尾松凋落叶分解速率和养分释放模式,凋落叶的残留率与氮浓度、碳/氮及月积温密切相关。     

广西马尾松和红锥纯林降水再分配及冠层淋溶效应

明析马尾松(Pinus massoniana)和红锥(Castanopsis hystrix)纯林降水再分配及冠层淋溶效应的差异,可为南亚热带针叶人工林改造提供水文数据。依托广西友谊关森林生态系统国家定位观测研究站,通过野外测定和室内分析相结合的方法,利用林下布设的30个自记雨量筒,测定了2016年1—12月的大气降水、穿透雨及树干径流,同时采集7—12月10次降水事件水样,监测其化学成分。结果表明:观测期间降雨总量为1070.2 mm,马尾松和红锥纯林穿透雨分别为823.0和693.2 mm,占降雨量的76.9%和64.8%;树干径流分别为3.2和9.9 mm,占降雨量的0.3%和0.9%;林冠截留量分别为244.0和367.1 mm,占降雨量的22.8%和34.3%,说明马尾松和红锥纯林对降水再分配的作用是不同的,红锥纯林具有更好的林冠截留能力。降水对红锥纯林冠层4种盐基离子(K~+、Mg~(2+)、Na~+、Ca~(2+))的淋溶量为17.53 kg·hm~(-2),是马尾松纯林的0.7倍,但酸缓冲是马尾松纯林的1.6倍。与马尾松纯林相比,红锥纯林具有更好的避免冠层养分淋溶和应对酸沉降的能力。     

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.