不同碱度条件下中华水韭昼夜CO2气体交换的特征

 运用pH-drift的方法研究了在不同碱度条件下中华水韭(Isoetes sinensis)的沉水叶片昼夜CO₂吸收的特征。结果表明中华水韭的沉水叶片具有昼夜吸收水中CO₂的能力, 而不具备利用水中的HCO ₃^–的能力, 进一步证明了水生植物中华水韭的光合碳同化途径具有景天酸代谢(CAM)的特征。中华水韭沉水叶片光照条件下对水中CO₂的吸收速率在一定的浓度范围内正相关于水中的CO₂浓度。光照条件下, 中华水韭的pH-drift实验的pH补偿点分别为(8.1±0.3)和(7.9±0.1) mmol·L^–1, 最终[CT]/Alk值为(1.009±0.01)和(1.022±0.004)。碱度对中华水韭夜晚CO2的吸收速率有显著的影响(F = 38.73, p < 0.000 1)。总碱度1.70 mmol·L^–1溶液中的中华水韭沉水叶片在相对较低的CO₂浓度(0.04±0.001 mmol·L^–1)水平下即表现出对CO₂的净吸收。调查了野外一处中华水韭沉水种群的生境pH值及CO₂浓度的昼夜变化, 发现水体碱度约为1.59 mmol·L^–1, 一昼夜的pH值波动不大, 平均为(6.1±0.04), 昼夜CO₂浓度存在波动, 午夜水中的CO₂浓度是午后的近3倍。     

中华水韭对不同营养条件的生理生态响应

采用水培法,研究了不同营养条件对中华水韭叶片生理生化特性和光合荧光特性的影响。结果显示:随着营养液中氮、磷浓度的升高,中华水韭叶片的生理生化特性除叶绿素含量呈下降的变化趋势外,可溶性糖、丙二醛、脯氨酸含量、过氧化氢酶活性(CAT)均呈上升趋势,而过氧化物酶活性(POD)则呈先上升后下降的趋势;同时叶片光合荧光特性中除非光化学猝灭系数(qN)呈上升的趋势外,PSⅡ的最大量子产量(Fv/Fm)、有效量子产量(Yield)、光化学猝灭系数(qP)、最大潜在相对电子传递速率(Pm)以及快速光响应曲线初始斜率(α)和半饱和光强(Ik)均呈下降的趋势。研究表明,随着水体氮、磷浓度的升高,中华水韭在中度营养条件下(N 0.4mg·L~(-1)、P0.04mg·L~(-1))耐受性较好,但在高营养条件下(N 1.2mg·L~(-1)、P 0.12mg·L~(-1))耐受性较差,其渗透调节能力和抗氧化能力上升,但光合作用能力下降,抑制了中华水韭的正常光合生理活动,进而影响其生长,推测水体富营养化可能是造成中华水韭濒危的重要原因之一。     

苗期喷施水杨酸对甜叶菊主要农艺性状和糖苷含量的影响

采用不同浓度水杨酸(0.5、1、2、4、8mmol·L~(-1))以及水杨酸抑制剂1-氨基苯并三唑(ABT)10μmol·L~(-1)喷施大棚内以及大田中甜叶菊苗期叶片,探究其对甜叶菊主要农艺性状、叶片糖苷含量以及采收时期甜叶菊叶片水杨酸含量的影响。结果表明:(1)随着水杨酸处理浓度升高,大棚和大田中甜叶菊主要农艺性状大多均表现出先增加后降低的趋势;2mmol·L~(-1)水杨酸处理下,大棚内和大田中甜叶菊主要农艺性状均有显著增加,其单株叶干重产量分别为1.03和16.76g较对照(0.76和12.34g)增加39.96%和9.52%;ABT处理对甜叶菊农艺性状均有一定抑制作用。(2)甜叶菊叶片总糖苷及其组分含量在1mmol·L~(-1)水杨酸处理后均有明显升高,且在2mmol·L~(-1)水杨酸浓度下达到最高值,此时大棚和大田中甜叶菊叶片总糖苷含量分别为16.75%、14.57%比对照(13.33%、12.03%)增加25.66%和16.18%,RA苷也均有显著增加并达到10.59%和9.77%。(3)采收时期大田甜叶菊叶片水杨酸含量在1和2mmol·L~(-1)处理后与对照组无显著差异,在4和8mmol·L~(-1)水杨酸处理后显著提高,而在ABT处理后有所降低。研究认为,叶面喷施适宜浓度水杨酸可显著提高甜叶菊产量和糖苷含量,尤其是RA苷含量,且不影响采收期叶片水杨酸含量,生产中可采用2mmol·L~(-1)水杨酸苗期喷施甜叶菊以提高产量和改进品质。     

美国生物圈二号内生长在高CO_2浓度下的10种植物气孔导度、蒸腾速率及水分利用效率的变化

报道了美国生物圈二号内生长在高CO_2浓度下(>2200μmol·mol~(-1))4.5年后的5种热带雨林植物和5种荒漠植物气孔导度、蒸腾速率和水分利用效率的变化。结果表明:热带雨林植物在CO_2浓度为350～400μmol·mol~(-1)时的气孔导度、蒸腾速率和水分利用效率分别为:(127.4±65.6)mmol·m~(-2)·s~(-1)、(2.04±0.61)mmol·m~(-2)·s~(-1)和(2.90±0.55)μmol CO_2·mmol~(-1) H_2O,而在700～820μmol·mol~(-1)时为(61.3±30.5)mmol·m~(-2)·s~(-1)、(1.54±0.65)mmol·m~(-2)·s~(-1)和(8.45±2.71)μmol CO_2·mmol~(-1) H_2O;荒漠植物气孔导度和蒸腾速率则分别由CO_2 320～400μmol·mol~(-1)时的(142.8±94.6)和(2.09±0.71)下降到820～850μmol·mol~(-1)时的(57.7±35.8)和(1.36±0.52)mmol·m~(-2)·s~(-1),水分利用效率由(4.69±1.39)上升到(9.68±1.61)μmol CO_2·mmol~(-1) H_20。在低CO_2浓度时植物的气孔导度、蒸腾速率和水分利用效率受光照强度的影响较高CO_2浓度时明显,一般雨林植物三项指标在光照强度为500μmol·m~(-2)·s~(-1)时达到饱和,而荒漠植物在1000μmol·m~(-2)·s~(-1)时达到饱和。不同植物中,以荒漠C_3植物粉蓝烟草(Nicotiana glau-ca Grah.)的气孔导度、蒸腾速率和水分利用效率     

主成分分析不同浓度CaCl_2对NaCl胁迫下‘达米娜’葡萄的缓解效应

为探讨钙对葡萄盐害的缓解效应,研究了200 mmol·L~(-1) NaCl胁迫下,不同浓度CaCl_2对‘达米娜’葡萄沙培一年生自根苗的影响。结果显示:NaCl胁迫下,‘达米娜’葡萄根系、叶片相对电导率、叶片超氧阴离子自由基(O_2ˉ·)产生速率和过氧化氢(H_2O_2)含量显著升高,而超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)和抗坏血酸过氧化物酶(APX)活性显著降低,新梢长度和总生物量显著降低。5和10 mmol·L~(-1) CaCl_2显著降低了NaCl胁迫下根系、叶片相对电导率、叶片O_2ˉ·产生速率和H_2O_2含量。CaCl_2显著缓解了NaCl胁迫下SOD和CAT活性的下降,15 mmol·L~(-1) CaCl_2显著缓解了POD活性的下降,而10、15和20 mmol·L~(-1) CaCl_2显著缓解了APX活性的下降。高浓度(25 mmol·L~(-1))CaCl_2处理的叶片相对电导率、O_2ˉ·产生速率和H_2O_2含量显著高于NaCl胁迫的,而POD、APX活性、新梢长和植株总生物量与NaCl胁迫的差异不显著。主成分分析表明10 mmol·L~(-1)是CaCl_2缓解200 mmol·L~(-1) NaCl胁迫对‘达米娜’葡萄的最适浓度,可能与叶片中较高的抗氧化酶活性和较少的活性氧积累有关。     

低温胁迫对极度濒危植物中华水韭生理特性的影响

以人工繁殖的极度濒危级(CR)植物中华水韭(Isoetes sinensis Palmer)为试验材料,研究了0 ℃低温环境下胁迫0~20 d,沉水叶片中保护酶系统(POD、SOD、CAT)、渗透调节物质(可溶性糖和可溶性蛋白)、叶绿素以及丙二醛(MDA)和相对电导率的变化。结果显示:随着低温（0 ℃）胁迫时间的延长,中华水韭沉水叶片的相对电导率、可溶性糖含量、CAT活性先升高后下降,SOD活性呈逐渐上升的趋势,POD活性、可溶性蛋白含量、叶绿素含量下降,MDA含量一直低于CK,且在一定范围内波动。研究表明,中华水韭沉水叶片在0 ℃低温胁迫中受到一定程度的伤害,但能通过调节自身的膜透性、渗透调节物质含量和保护酶活性系统来减轻低温伤害,维持其正常生理代谢功能,从而表现出一定的抗寒潜力。     

NaCl胁迫对高丛越橘幼苗生长和光合生理特性的影响

以2年生北高丛越橘‘蓝丰’幼苗为材料,采用温室盆栽法研究了不同浓度(0、50、100、150和200mmol·L~(-1))NaCl胁迫处理50d对其生长、光合作用和叶绿素荧光特性的影响,以鉴定高丛越橘的耐盐性,为盐碱地区的越橘引种、栽培提供理论依据。结果显示:(1)越橘幼苗地上部鲜质量和地下部鲜质量在50mmol·L~(-1) NaCl处理下与对照无显著差异,当超过100mmol·L~(-1) NaCl时均显著降低;地上部干质量、地下部干质量、总干质量在低于100mmol·L~(-1) NaCl处理下与对照无显著差异,当超过150mmol·L~(-1) NaCl时均显著降低;在不同浓度NaCl处理下,根冠比与对照均无明显差异。(2)越橘幼苗叶片Chl a、Chl b和总Chl含量在低于100mmol·L~(-1) NaCl处理下与对照无显著差异,当超过150mmol·L~(-1) NaCl时均明显降低。(3)越橘叶片净光合速率(Pn)、蒸腾速率(Tr)和气孔导度(Gs)在50mmol·L~(-1) NaCl处理下与对照无显著差异,在超过100mmol·L~(-1) NaCl时均明显下降;在200mmol·L~(-1) NaCl处理下胞间CO2浓度(Ci)、气孔限制值(Ls)明显下降;不同浓度NaCl处理下水分利用效率(WUE)无明显差异;(4)暗适应下最大荧光(Fm)、最大光化学效率(Fv/Fm)、潜在光化学效率(Fv/F0)、PSⅡ光量子产量(ΦPSⅡ)、光合电子传递速率(ETR)、光化学猝灭系数(qP)在低于150mmol·L~(-1) NaCl处理下与对照无显著差异,在200mmol·L~(-1) NaCl时均明显下降。研究表明,越橘幼苗具有一定的耐盐能力,能够忍受100mmol·L~(-1)NaCl胁迫,但在高NaCl浓度胁迫下,气孔限制因素是导致Pn下降的主要原因,此外叶片光合机构受损、叶绿素含量显著减少以及光合电子传递受阻而产生的光抑制,也会导致Pn的下降和生物量的降低。     

NaCl胁迫对小黄花菜生长及相关生理指标的影响

为探讨小黄花菜的耐盐机理,选育良好的耐盐植物以缓解土壤盐渍化问题,该文选取小黄花菜(Hemerocallis minor)为试材,采用砂培法,研究不同浓度Na Cl(50、100、150、200、250 mmol·L~(-1))胁迫对小黄花菜的生长性状、细胞质膜透性和有机渗透调节物质含量等的影响。结果表明:(1)小黄花菜在100～150mmol·L~(-1)Na Cl胁迫时,损害初步显现,但不影响其存活;在Nacl浓度为200 mmol·L~(-1)以上时,小黄花菜生长被显著抑制,造成根系不发育、叶片受害、植株干物质积累显著不足,严重影响其生存状态。(2)在50～150mmol·L~(-1)盐渍环境下,叶片膜透性、MDA含量增幅较小,该浓度范围的Na Cl胁迫造成的膜脂损伤有限; 200mmol·L~(-1)以上浓度的Na Cl胁迫使得小黄花菜叶片的离子平衡无法继续维持,膜的选择透性丧失。(3)随着Na Cl浓度的增加,叶片中脯氨酸含量显著增加;在50～100 mmol·L~(-1)Nacl胁迫下,叶片可溶性糖含量在胁迫初期有所增加,在15 d时达到最大,胁迫后期开始下降;叶片中可溶性蛋白含量的变幅较为平缓,说明小黄花菜的主要渗透调节物质不是可溶性蛋白。该研究发现通过提高叶片膜透性,促进自身有机渗透调节物质的合成,能够在一定程度上缓解盐渍对植株的侵害,使得小黄花菜能够在50～100 mmol·L~(-1)的盐碱环境下正常生长。     

氮、磷、铁对三角褐指藻诱变株生长、总脂及脂肪酸的影响

为了优化微藻培养条件,采用单因子试验研究了不同氮浓度(5、10、15、20、25、30和35 mg·L~(-1))、不同磷浓度(0.5、1.0、1.5、2.0、2.5、3.0和3.5 mg·L~(-1))、不同铁源(Fe Cl3、Fe C6H5O7和Fe SO4)和铁浓度(0、0.10、0.25、0.50和1.00 mg·L~(-1))对三角褐指藻紫外诱变株MP-2的影响。结果表明:氮、磷、铁对MP-2的生长、总脂含量和脂肪酸组成影响显著(P0.05);MP-2生长最适氮浓度为20 mg·L~(-1),其生长速率K值和生物量分别为(0.384±0.004)和(0.25±0.01)g·L~(-1),氮浓度为30 mg·L~(-1)时总脂积累量最高(26.51±1.96)%,氮浓度25 mg·L~(-1)时PUFA积累最高[(37.78±0.35)%];MP-2生长最适磷浓度为2.5 mg·L~(-1),生长速率K值和生物量分别为(0.305±0.010)和(0.28±0.02)g·L~(-1),磷浓度1.0 mg·L~(-1)时总脂积累量最高[(21.79±0.89)%],磷浓度为2.5 mg·L~(-1)时PUFA积累最高[(39.33±0.38)%];Fe SO4为铁源时生长最佳,显著优于其余各组(P0.05),生长最适铁浓度为0.50 mg·L~(-1),生长速率K值和生物量分别为(0.495±0.006)和(0.87±0.04)g·L~(-1),铁浓度0.25 mg·L~(-1)时总脂积累量最高[(28.86±0.50)%],铁浓度1.0mg·L~(-1)时PUFA积累最高[(41.73±0.42)%]。由此可见,MP-2生长、总脂和PUFA积累所需的氮、磷、铁需求量不同,在生产性培养时最好采用二次培养。     

增施CO_2对温室番茄结果期叶片光合特性的影响

针对日光温室冬春季生产CO_2匮缺严重的现象,以不增施CO_2[(400±25)μmol·mol~(-1)(C0)]为对照,研究增施不同浓度CO_2[(600±25)μmol·mol~(-1)(C_1)、(800±25)μmol·mol~(-1)(C_2)、(1000±25)μmol·mol~(-1)(C_3)]对番茄‘兴海12号’结果期光合色素、净光合速率(P_n)、气孔导度(G_s)、蒸腾速率(T_r)、胞间CO_2浓度(C_i)以及水分利用率(WUE)等光合特性的影响,旨在明确北方地区日光温室番茄结果期适宜的CO_2浓度,为番茄的生产实践提供理论依据。结果表明:增施不同浓度CO_2后,番茄结果期叶片光合色素含量均明显增加;P_n、C_i和WUE显著提高;G_s和T_r显著下降;且CO_2浓度为(1000±25)μmol·mol~(-1)时效果最佳。增施(1000±25)μmol·mol~(-1)CO_2能有效改善番茄结果期叶片光系统、增强其光合作用,有利于番茄的生长发育。     

Gas Exchange Characteristics of the Submerged Aquatic Crassulacean Acid Metabolism Plant, Isoetes howellii

The submerged aquatic plant Isoetes howellii Engelmann possesses Crassulacean acid metabolism (CAM) comparable to that known from terrestrial CAM plants. Infrared gas analysis of submerged leaves showed Isoetes was capable of net CO₂ uptake in both light and dark. CO₂ uptake rates were a function of CO₂ levels in the medium. At 2,500 microliters CO₂ per liter (gas phase, equivalent to 1.79 milligrams per liter aqueous phase), Isoetes leaves showed continuous uptake in both the light and dark. At this CO₂ level, photosynthetic rates were light saturated at about 10% full sunlight and were about 3-fold greater than dark CO₂ uptake rates. In the dark, CO₂ uptake rates were also a function of length of time in the night period. Measurements of dark CO₂ uptake showed that, at both 2,500 and 500 microliters CO₂ per liter, rates declined during the night period. At the higher CO₂ level, dark CO₂ uptake rates at 0600 h were 75% less than at 1800 h. At 500 microliters CO₂ per liter, net CO₂ uptake in the dark at 1800 h was replaced by net CO₂ evolution in the dark at 0600 h. At both CO₂ levels, the overnight decline in net CO₂ uptake was marked by periodic bursts of accelerated CO₂ uptake. CO₂ uptake in the light was similar at 1% and 21% O₂, and this held for leaves intact as well as leaves split longitudinally. Estimating the contribution of light versus dark CO₂ uptake to the total carbon gain is complicated by the diurnal flux in CO₂ availability under field conditions.     

Short-Term Regulation of Crassulacean Acid Metabolism Activity in a Tropical Hemiepiphyte,Clusia uvitana

Diel courses of net CO2 exchange of leaves were studied in Clusia uvitana (Clusiaceae), a tropical Crassulacean acid metabolism (CAM) hemiepiphyte, growing in the crown of a 47-m tall kapok tree on Barro Colorado Island, Panama. Measurements on days without precipitation showed that net uptake of atmospheric CO2 occurred at night, a feature of CAM, as well as in the early morning and late afternoon. During 36 h of almost continuous rainfall, nocturnal net CO2 uptake was abolished and the diel pattern of net CO2 exchange became similar to that of a C3 plant. Exposing well-watered, potted plants of Clusia in the laboratory to temperatures and photosynthetic photon flux densities similar to those during the tropical rainstorm also abolished nocturnal net CO2 uptake. In contrast, Kalanchoe pinnata (Crassulaceae), an obligate CAM plant, still showed net CO2 dark fixation following the same low-light and moderate-temperature conditions, albeit at decreased rates. During these 12-h photoperiods, titratable acidity in Clusia increased slightly above its high level measured at the end of the previous dark period, whereas in Kalanchoe, the acid content decreased by about 40%. A survey among outer canopy leaves of Clusia on Barro Colorado Island showed that leaves that exhibited little or no nocturnal acidification maintained high levels of H+ at dawn and dusk. Progressively lower levels of H+ at dusk were accompanied by progressively higher nocturnal increases in H+. The data suggest that in C. uvitana the rapid switching between CAM- and C3-type carbon fixation that may occur within 24 h in response to environmental changes is controlled by the acidity status of the leaves in the light. Nocturnal CO2 fixation is enhanced by conditions that decrease the organic acid content during the light period.     

马占相思人工林净二氧化碳交换和碳同位素通量

应用稳定碳同位素技术,对马占相思人工林冠层受光和遮荫叶片的碳同化率(A_net)和叶面积指数(L)进行加权,将叶片水平的¹³C甄别率(Δ_i)扩展至冠层光合甄别率(Δ_canopy),测定光合固定和呼吸释放的碳同位素通量及其净交换通量.结果表明：Δ_canopy的日变化明显,日出前和中午出现较低值(18.47‰和19.87‰),而日落前达到最大(21.21‰);秋季末期(11月)至翌年夏季,Δ_canopy逐步升高,年平均为(20.37±0.29)‰.不同季节自养呼吸(日间叶片呼吸除外)和异养呼吸释放CO₂的碳同位素比率(δ¹³C)平均值分别为(-28.70±0.75)‰和(-26.75±1.3)‰,春季林冠夜间呼吸CO₂的δ¹³C最低(-30.14‰),秋季末期最高(-28.01‰).马占相思林与大气的CO₂碳同位素通量在春季和夏季中午时峰值分别为178.5和217 μmol·m^-2 ·s^-1·‰,日均值分别为638.4 和873.2 μmol·m^-2·s^-1·‰.冠层叶片吸收CO₂的碳同位素通量较呼吸释出CO₂的碳同位素通量高1.6～2.5倍,表明马占相思林日间吸收大量CO₂,降低空气CO₂浓度,具有改善环境的良好生态服务功能.     

三江源地区人工草地的生态系统CO2净交换、总初级生产力及其影响因子

为了揭示三江源区垂穗披碱草(Elymus nutans)人工草地生态系统(100°26′-100°41′ E, 34°17′-34°25′ N, 海拔3 980 m)的净生态系统CO₂交换(NEE), 该研究利用2006年涡度相关系统观测的数据分析了该人工草地的NEE, 总初级生产力(GPP)、生态系统呼吸(R_eco)以及R_eco/GPP的变化特征及其影响因子。CO₂日最大吸收值为6.56 g CO₂·m^-2·d^-1, 最大排放值为4.87 g CO₂·m^-2·d^-1。GPP年总量为1 761 g CO₂·m^-2, 其中约90%以上被生态系统呼吸所消耗, CO₂的年吸收量为111 g CO₂·m^-2。5月的R_eco/GPP略高于生长季的其他月份, 为90%; 6月R_eco/GPP比值最低, 为79%。生态系统的呼吸商(Q₁₀)为4.81, 显著高于其他生态系统。该研究表明: 生长季的NEE主要受光量子通量密度(PPFD)、温度和饱和水汽压差(VPD)的影响, 生态系统呼吸则主要受土壤温度的控制。     

Light-Stimulated Burst of Carbon Dioxide Uptake following Nocturnal Acidification in the Crassulacean Acid Metabolism Plant Kalanchoë diagremontiana

CO₂ exchange characteristics were studied during the light-stimulated burst of CO₂ uptake (MB) immediately following a period of nocturnal CO₂ fixation in the Crassulacean acid metabolism plant Kalanchoë daigremontiana. During the early parts of the MB, stimulation of net CO₂ uptake by low ambient O₂ concentration (1.5%) was small, and leaves showed the capacity for net CO₂ uptake at low ambient CO₂ partial pressure (30 microbars) and when the MB was interrupted by darkness. During the later phase of the MB, stimulation of net CO₂ uptake by 1.5% O₂ was increased, and net CO₂ loss was recorded both at 30 microbars CO₂ and during dark interruptions. These results suggest that CO₂ fixation during the MB occurs simultaneously via phosphoenolpyruvate carboxylase (predominant during the early phase of the MB) and via ribulose bisphosphate carboxylase (predominant during the later phase of the burst). The magnitude and duration of the MB was increased by a reduction in the length of the dark period and by low (15°C) compared to high (30°C) leaf temperatures.     

田间小麦叶片光合效率日变化与光合“午睡”的关系

小麦灌浆初期叶片(旗叶)晴天中午光合速率下降(“午睡”)伴随了气孔导度、胞间CO_2浓度下降,而气孔限制值中午升高,进一步证实气孑L中午关闭是光合“午睡”的一个重要原因。叶片光合效率的中午下降并非都伴随着光合“午睡”现象。当两者同时发生时,胞间CO_2浓度降低,而光合速率与气孔导度、胞间CO_2浓度之间的相关性高于光合速率与光合效率之间的相关性。这些事实表明。即使光合效率中午下降是光合“午睡”的部分原因,但较之气孔中午关闭只是一个次要原因。     

Some effects of air temperature and humidity on crop and leaf photosynthesis, transpiration and resistance to gas transfer

Measurements of carbon dioxide exchange and transpiration were made, at various air temperatures, on wheat and barley using a field enclosure system. From these were derived the stomatal and mesophyll resistances to carbon dioxide transfer. Optimum temperatures for net CO₂ uptake were about 24°C for wheat and barley. Above these optima, as temperature increased so net CO₂ uptake rates decreased, because of increasing stomatal and mesophyll resistances; transpiration rates decreased in wheat but were constant in barley. In laboratory growth cabinets, wheat plants were subjected to different regimes of temperature and humidity. Optimum temperature for net CO₂ uptake of individual leaves was 25°C. At constant humidity, a decline in net uptake rates above 25°C was associated with large increases in mesophyll resistance. At a constant 25°C, as the vapour pressure deficit (v.p.d. was increased above 1 k Pa (10 mb) v.p.d. the net uptake declined, with an increase in mesophyll resistance and a small increase in stomatal resistance. When the v.p.d. exceeded 1 k Pa at a temperature of 30°C, conditions that are experienced by field plants, then there were large increases in both mesophyll and stomatal resistances and the net uptake rates declined. Photo-respiration, as measured by CO₂ uptake in oxygen-free air, was independent of temperature, but both dark respiration and CO₂ compensation concentration increased with temperature.     

Short-term effects of aphid feeding on photosynthetic CO2 exchange and dark respiration in legume leaves

Net CO₂ exchange rates and dark respiration rates were determined for single attached legume leaves (leaflets) after 6 to 9 days of aphid infestation. Plant-aphid combinations used were broad bean ( Vicia faba L. cv. Aquadulce) and cowpea [ Vigna unguiculata (L.) Walp. cv. Caloona)] infested with cowpea aphids ( Aphis craccivora Koch) and broad bean and garden pea ( Pisum sativum L. cv. Victory Freezer) infested with pea aphids [ Acyrthosiphon pisum (Harris)]. Leaves from all aphid-infested plants had significantly greater net CO₂ exchange rates in the light than their respective controls and rates of dark respiration of leaves from infested cowpea and garden pea were also significantly greater than those of controls. Dark respiration, as a percentage of net CO₂ exchange rates in the light, was greater in aphid-infested than in control plants. When the mean net daily carbon gain was calculated for the leaves of each plant-aphid combination, leaves from aphid-infested plants had the greatest gain. It is proposed that net CO₂, exchange rates increased due to increased sink demand and dark respiration rates increased to meet the increased energy requirements of phloem loading and cellular maintenance associated with aphid feeding. The apparent compensatory carbon gain of infested leaves was consumed by the aphids.     

几种环境因素对玉米叶切块光诱导的影响

利用液相氧电极研究了暗处理、光强、ＣＯ２水平、缺钾和干旱对玉米叶切块光诱导的影响。发现长时间的暗处理、高光强、低ＣＯ２浓度、缺钾和干旱均使光合诱导期拉长。影响光合诱导期的外界逆境如低ＣＯ２浓度、缺钾和干旱也使玉米叶片的净光合速率下降,并对这些结果产生的原因作了分析。