浙江天童国家森林公园5种常绿阔叶植物的一次和二次抽枝进程

中国东部亚热带常绿阔叶林中, 部分常绿木本物种具有明显的二次抽枝现象, 即在春天完成第一次抽枝, 间隔一定的时间后又开始新一轮抽枝。但是关于这些植物第二次抽枝的进程, 迄今鲜有报道, 限制了人们对这些植物生活史对策的理解。该文以浙江天童常绿阔叶林中有二次抽枝的5种植物光叶山矾(Symplocos lancifolia)、檵木(Loropetalum chinense)、窄基红褐柃(Eurya rubiginosa var. attenuata)、杨梅(Myrica rubra)和栲树(Castanopsis fargesii)为研究对象, 调查并比较了第一次抽枝和第二次抽枝在昆虫取食压力、展叶动态和小枝投资大小3个方面的差异, 探讨第二次抽枝动态的主要特点。结果表明: 1)昆虫取食压力上, 杨梅、栲树2种植物第二次抽枝的叶片虫食率显著高于第一次抽枝, 光叶山矾、檵木和窄基红褐柃3种植物第一、二次抽枝的叶片虫食率没有差异; 2)在现叶速率(叶片数量的增加速率)上, 同一物种第一、二次抽枝的叶片数量增长模式相同, 光叶山矾、檵木、窄基红褐柃和杨梅4个物种呈持续式增长, 栲树则呈爆发式增长, 但是完成现叶所需时间并不完全相同, 光叶山矾、窄基红褐柃和杨梅第二次抽枝完成现叶比第一次少6-9天, 檵木和栲树第一、二次抽枝完成现叶所需时间则无差异; 3)在展叶速率上, 光叶山矾、檵木和窄基红褐柃第二次抽枝显著高于第一次抽枝, 但第一次抽枝较晚的杨梅和栲树第一、二次抽枝之间没有差异; 4)调查的5种植物, 第二次抽枝的投资总量均小于第一次抽枝, 光叶山矾、窄基红褐柃、杨梅和栲树4种植物, 第二次抽枝形成的小枝在叶片数量、单叶面积、小枝长度和小枝直径上都显著小于第一次抽枝, 檵木第二次抽枝形成的小枝在叶片数量和小枝长度上没有差异, 单叶面积和小枝直径则显著小于第一次抽枝。总体上看, 所研究物种第二次抽枝中的叶片虫食率、现叶速率和展叶速率都不小于第一次抽枝, 而第二次抽枝小枝投资总量较小, 这些可能是物种对相对较大的昆虫取食压力和即将来临的冬天不利条件等的适应。     

九种不同材性的温带树种叶水力性状及其权衡关系

不同材性树种的解剖、叶脉分布等结构性状差异会影响树木的水分运输效率和水分利用策略, 进而限制树木的生存、生长和分布。然而, 材性对叶导水率、水力脆弱性及其潜在的权衡关系的影响尚不清楚。该研究选择东北温带森林中不同材性的9种树种(散孔材: 山杨(Populus davidiana)、紫椴(Tilia amurensis)、白桦(Betula platyphylla); 环孔材: 蒙古栎(Quercus mongolica)、水曲柳(Fraxinus mandshurica)、胡桃楸(Juglans mandshurica); 无孔材: 红皮云杉(Picea koraiensis)、樟子松(Pinus sylvestris var. mongolica)、红松(Pinus koraiensis), 测量其基于叶面积和叶质量的叶导水率(K_area和K_mass)、水力脆弱性(P₅₀)、膨压丧失点水势(TLP)及叶结构性状, 以比较不同材性树种叶水力性状的差异, 并探索叶水力效率与安全的权衡关系。结果表明: 3种材性树种的K_area、K_mass和P₅₀均差异显著(p < 0.05)。无孔材树种的K_area和K_mass最低, 而散孔材和环孔材树种差异不显著; 环孔材树种P₅₀最高, 而散孔材和无孔材树种差异不显著。K_area和K_mass均与P₅₀显著负相关(p < 0.05), 但散孔材、环孔材和无孔材树种的相关关系分别呈线性、幂函数和指数函数关系。这表明叶水力效率与安全之间存在一定的权衡关系, 但该关系受树木材性的影响。K_mass与TLP显著负相关(p < 0.01), 其中散孔材和环孔材树种呈线性负相关, 无孔材树种呈负指数函数关系; P₅₀随TLP的增加而增加, 这表明树木在面临水分胁迫时, 其质外体和共质体抗旱阻力共同协调保护叶片活细胞, 防止其水分状况到达临界阈值。K_mass与叶干物质含量、叶密度、比叶重均显著负相关, 而P₅₀与之显著正相关(p < 0.01, P₅₀与比叶重的关系除外), 表明树木叶水力特性的变化受相同叶结构特性驱动, 树木增加对水力失调的容忍需要在叶水力系统构建上增加碳投资。     

八个树种叶水力性状对水分条件的响应及其驱动因素

树木叶片的水力效率和安全性会对水分条件的改变做出一定的响应, 进而影响树木的生长和分布, 然而叶导水率(K_leaf)和叶水力脆弱性(P₅₀)对不同水分条件的响应模式及其影响因素尚不清楚。该研究选取了晋西北关帝山和黑茶山两种水分条件下的8种树种, 测量其水力性状、叶片导管和形态性状, 比较两地不同树种的K_leaf和P₅₀的变化, 分析叶片水力效率和安全性之间的权衡关系, 并探讨叶片水力性状在不同树种及水分条件下的响应模式及其驱动因素。结果表明: 对同一树种而言, 湿润的关帝山叶最大导水率(K_max)和P₅₀均高于干旱的黑茶山; 对同一地区而言, 从在高水分条件下生长的树种到在易干旱环境生长的树种, K_max和P₅₀均逐渐下降。K_max、P₅₀、膨压丧失点水势(TLP)之间均存在显著相关关系。两地叶片P₅₀与导管密度、导管塌陷预测值((t/b)³)、叶片厚度、比叶质量显著正相关, 与导管直径、叶面积显著负相关, 不同树种的K_leaf和P₅₀与叶导管性状的关系大于叶形态性状。同一树种的关帝山到黑茶山P₅₀变化量(δP₅₀)与比叶质量和叶干物质含量在两地的变化量显著正相关, 同一树种δP₅₀与叶形态性状变化量的关系大于与叶导管性状的。以上结果表明: 随着水分条件变差, 叶片水力效率降低, 水力安全性提高, 不同树种叶片水力效率与安全性之间存在一定的权衡关系, 不同树种叶水力性状的差别受叶导管性状影响的程度大于受叶形态性状的影响, 同一树种叶水力安全性对水分条件变化的响应主要依靠叶形态性状的驱动, 树木在提高自身叶水力安全的同时增加了叶构建的碳投资。     

不同天气类型下UV-B辐射对高山植物美丽风毛菊叶片PSII光化学效率的影响分析

以中国科学院海北高寒草甸试验站地区的美丽风毛菊(Saussurea superba)为材料, 通过短期滤除自然光谱中紫外线B (UV-B)辐射成分的途径, 研究了UV-B辐射对叶片光系统II (PSII)光化学效率的影响。不同天气的归纳分析表明, 随可见光辐射的降低, 暗适应3 min的PSII最大光化学量子效率(F_(v)/F_(m))显著升高; 与此同时PSII实际光化学量子效率(Φ_PSII)和光化学猝灭系数(q_P)也显著升高, 非光化学猝灭系数(NPQ)则显著降低。滤除UV-B辐射后, 3种典型天气类型下的F_(v)/F_(m)均略有升高趋势; 且Φ_PSII和q_P增加, 而NPQ略有降低趋势。量子效率的相对限制(L_(PFD))和PSII反应中心开放程度(q_L)的进一步分析表明, UV-B辐射能显著影响辅酶A还原状态, 对高山植物美丽风毛菊的光合机构具有负影响。综上可知, 自然光中的可见光辐射是影响PSII激发能捕获效率的重要因素, PSII反应中心的光化学效率和非光化学能量耗散主要受光和有效辐射的影响; 滤除UV-B成分能减缓PSII反应中心的光抑制程度。     

水曲柳和落叶松细根寿命的估计

树木细根(直径≤2 mm)是控制树木与其周围环境进行能量交换和物质分配的主要器官,其寿命的长短决定了每年被分配到土壤中碳和养分的数量。我们使用微根管技术监测了水曲柳(Fraxinus mandshurica)和落叶松(Larix gmelinii)细根生长、衰老、死亡的动态过程,运用Kaplan-Meier方法估计细根存活率及中位值寿命(Median root lifespan,MRL),做存活曲线(Survival curve)。用对数秩检验(Log-rank test)比较不同树种、不同土壤层次、不同季节出生的细根寿命差异程度。研究结果表明,随观测期延长,细根存活率逐渐下降,在观测期内的各个时点上,水曲柳细根存活率显著高于落叶松(p<0.001),说明水曲柳细根寿命明显长于落叶松,两树种的MRL分别为111±7 d和77±4 d。无论是水曲柳还是落叶松,土壤下层(20~40 cm)的细根存活率始终高于上层(0~20 cm),差异程度均达到显著水平(p_落=0.001, p_水<0.001),落叶松上下两层的MRL分别为62±11 d 和95±11 d,水曲柳为111±6 d和124±20 d,这与土壤环境因子的垂直分布有关,下层土壤延长细根寿命。不同同龄根群(Root cohort)的细根寿命不同。落叶松夏季产生的细根存活率显著高于春季(p=0.042),中位值寿命分别是MRL_春=47±13 d,MRL_夏=82±6 d。水曲柳不同细根同龄根群与落叶松具有相似的季节性,夏季产生的细根存活率在同一时间点上要显著高于春季(p=0.014)。     

东江外来齐氏罗非鱼个体繁殖力初步研究

于2011年1月至2011年12月,逐月在东江采集齐氏罗非鱼样本, 研究其个体繁殖力。结果表明, 齐氏罗非鱼属于多次产卵类型, 在东江的繁殖期约为5月初到10月底。个体绝对繁殖力(F)在4913~13129粒之间, 平均为7991粒;一次产卵量(F_b)在1997~6369粒之间, 平均为4114粒;体长相对繁殖力(F_L)在49~83粒/mm之间, 平均为62粒/mm;体质量相对繁殖力(F_W)在66~154粒/g之间, 平均为98粒/g。个体绝对繁殖力及一次产卵量与体长(L)呈幂函数相关, 与体质量(W)及净体质量(W_n)呈线性相关。相关回归式分别为:F=2.186L^1.6886 ;F_b =0.7243L^1.7796;F=50.184W + 3627.3;F_b=25.008W + 1952.2;F=58.783 W_n + 3553.4, F_b=28.939 W_n +1942。     

酸雨胁迫对苦槠幼苗气体交换与叶绿素荧光的影响

常绿阔叶树苦槠(Castanopsis sclerophylla)是亚热带地带性顶极群落的建群种之一, 在区域森林资源保护和可持续利用方面具有重要的地位。在该区域日益严重的酸雨胁迫下, 研究其对于胁迫的生理生态响应具有重要的理论价值和实践意义。该文以苦槠幼苗为研究材料, 研究了酸雨胁迫对苦槠幼苗光合生理的影响。结果表明: (1)短时间内, pH 2.5处理下的幼苗叶绿素相对含量最低, 且与pH 5.6处理下的存在显著性差异(p < 0.05); 经过一段时间处理后, pH 4.0处理下的叶绿素相对含量最高, 表明低浓度的酸雨会促进叶绿素相对含量的增加。(2) 2007年4月, 光合速率(P_n)、PSⅡ最大光化学效率(F_v/F_m)和PSⅡ的潜在活性(F_v/F₀)在不同酸雨浓度处理下基本无变化。随着酸雨处理时间的延长, pH 2.5处理下的P_n、光饱和点、光补偿点和暗呼吸速率有显著降低, 且与pH 5.6处理下的存在显著性差异(p < 0.05)。pH 2.5处理组与pH 5.6处理组之间的F_v/F_m和F_v/F₀差异性逐渐减小。表观量子效率和气孔导度变化规律不明显。综合来说, 酸雨处理前期, 高浓度的酸雨胁迫对苦槠幼苗叶绿素相对含量、光合生理参数有显著影响, 但随着酸雨处理时间的增加, 酸雨胁迫对苦槠幼苗的影响逐渐减小, 表明其对外界不良环境具有一定的抵御能力和适应能力。     

水分对苜蓿叶片光合特性的影响

采用田间试验, 对每茬灌水3次(W₃)、2次(W₂)、1次(W₁)和不灌水(W₀)四种条件下的土壤水分, 苜蓿(Medicago sativa)叶片的叶绿素荧光参数、气孔导度(G_s)、净光合速率(P_n)和蒸腾速率(T_r)进行测定。结果表明, 灌水提高了苜蓿叶片的原初光能转换效率(F_v/F_m)、P_n和T_r, 并随着灌水量的增加而增加。苜蓿叶片的F_v/F_m、P_n和T_r的日均值与土壤含水量均呈极显著正相关关系。苜蓿叶片的P_n与F_v/F_m和光合有效辐射(PAR)的乘积呈正相关关系。灌水还改变了苜蓿叶片P_n的日变化格局。灌水较多的处理(W₃和W₂), 苜蓿叶片没有出现光合“午休”现象,P_n的日变化趋势呈现“单峰”型。而灌水较少和不灌水的处理(W₁和W₀), 苜蓿叶片出现了明显的光合“午休”现象, 其P_n的日变化进程呈现“双峰”型。在相同的水分条件下, 初花期苜蓿叶片的P_n高于再生期的, T_r则相反。     

不同光强下细胞外三磷酸腺苷对菜豆叶片光化学反应特性的影响

三磷酸腺苷(ATP)不但分布在细胞内部, 而且广泛存在于动物和植物细胞的细胞外基质中。细胞外ATP (eATP)可与细胞膜表面相应的受体结合并激发细胞内的第二信使, 从而调节细胞的多种生理学功能。但目前对于eATP是否也能对植物的光合作用产生影响则研究较少。该文以菜豆(Phaseolus vulgaris)叶片为实验材料, 研究了在不同光强下eATP对菜豆叶片叶绿素荧光特性和光合放氧速率的影响。结果显示, 随着光强的增加, 叶片的光适应下最大光化学效率(F_v′/F_m′)、光系统II (PSII)实际光化学效率(Y(II))、光化学猝灭系数(q_P)均呈现下降趋势, 而电子传递速率(ETR)、非光化学猝灭系数(q_N)以及调节性能量耗散的量子产量(Y(NPQ))随着光强的增加呈上升趋势。与对照相比, eATP的处理可以显著提高菜豆叶片PSII的潜在最大光化学效率(F_v/F_m)、Y(II)、q_P、ETR和光合放氧速率; 但eATP的处理对F_v′/F_m′、q_N以及Y(NPQ)没有显著影响。AMP-PCP (β,γ-亚甲基三磷酸腺苷, eATP细胞外受体的抑制剂)的处理显著降低了F_v/F_m、F_v′/F_m′、Y(II)、ETR和光合放氧速率, 同时也显著增加了q_N以及Y(NPQ)的水平。以上结果显示, 植物eATP水平的变化对植物光合作用的光化学反应有着重要的影响。     

江苏宝华山主要常绿植物叶寿命与虫食频度相关性

研究叶寿命与叶片虫食相关性对揭示常绿树种的生活史特征及生态适应机制具有重要意义。采用静态生命表和野外观测分析江苏宝华山5个主要树种叶寿命及虫食频度,并对叶属性进行室内测定。结果表明:1)5个树种叶预期寿命不同(P0.05),介于1.26~2.47 a,平均1.80 a。2)不同树种叶片虫食频度不同,平均为34.74%,且同一树种现存叶片的虫食频度随叶片龄级的增大而增大。3)5种植物的叶寿命和虫食频度存在显著正相关(P0.05)。叶片硬度、厚度、含水量和LMA之间存在显著相关性,其主成分分析结果表明:第1主成分贡献率达92.57%,并且虫食频度与第1主成分呈显著负相关(P0.05)。因此推测,亚热带常绿、落叶阔叶混交林中不同常绿植物,其叶寿命越长,虫食频度也越高;其虫食作用不仅与物种的多度有关,而且与不同叶属性的综合作用(而非单一叶属性)有密切关系。     

西双版纳热带季节雨林林窗内幼树叶生长与虫食动态

 研究了西双版纳热带季节雨林6种乔木幼树在林窗中的叶生长与叶虫食动态。6种幼树叶生长主要在雨季(5～10月),在旱季雾凉期(11～2月)叶停止生长。阳性树种旱季干热期(3～4月)开始叶生长,顶极树种至5月雨季初才开始叶生长。表明雾凉期低温抑制两类树种叶生长,干热期水分不足抑制顶极树种叶生长。叶生长同步性(每两个月的叶生长量变异系数C．V．)顺序为：望天树(Shorea chinensis,1.42)>金钩花(Pseuduvaria indochinensis,1.41)>八宝树(Duabanga grandiflora, 1.02)>云南石梓(Gmelina arborea,0.98)>团花树(Anthocephalus chinensis,0.84)和铁刀木(Cassia siamea,0.84)。旱季造成一些种类幼树出现落叶高峰,严重叶虫食也导致云南石梓在7～8月出现落叶高峰。叶虫食主要出现在雨季,团花树和云南石梓在干热期叶生长能减少昆虫取食,但此时铁刀木叶同步生长却不能降低食叶昆虫危害。6种幼树叶生长量年进程与叶虫食量年进程间存在正相关,其中望天树、金钩花、八宝树和团花树分别达到显著(p<0.05)或极显著(p<0.01)水平。望天树和金钩花在雨季初叶同步生长能减轻叶虫食。食叶昆虫偏爱取食幼叶,6种幼树平均幼叶的虫食量占总虫食量的72.9％,幼叶虫食速率平均为成熟叶的4.3倍。     

Developmental Changes in Direct and Indirect Defenses in the Young Leaves of the Neotropical Tree Genus Inga (Fabaceae)

Plant fitness is affected by herbivory, and in moist tropical forests, 70 percent of herbivore damage occurs on young leaves. Thus, to understand the effects of herbivory on tropical plant fitness, it is necessary to understand how tropical young leaves survive the brief, but critical, period of susceptibility. In this study, we surveyed three species of Inga during young leaf expansion. Three classes of toxic secondary metabolites (phenolics, saponins, and tyrosine), extrafloral nectar production, leaf area, and extrafloral nectary area were measured at randomly assigned young leaf sizes. In addition, all defenses were compared for potential trade‐offs during leaf expansion. No trade‐offs among defenses were found, and the concentration of all defenses, except tyrosine, decreased during leaf expansion. We suggest that plants continued to increase phenolic and saponin content, but at a rate that resulted in decreasing concentrations. In contrast, tyrosine content per leaf steadily increased such that a constant concentration was maintained regardless of young leaf size. Nectar production remained constant during leaf expansion, but, because young leaf area increased by tenfold, the investment in extrafloral nectar per leaf area significantly decreased. In addition, nectary area did not change during leaf expansion and therefore the relative size of the nectary significantly decreased during young leaf expansion. These results support the predictions of the optimal defense hypothesis and demonstrate that the youngest leaves have the highest investment in multiple defenses, most likely because they have the highest nitrogen content and are most susceptible to a diversity of herbivores.     

Delayed greening,leaf expansion,and damage to sympatric<Emphasis Type="Italic"> Shorea</Emphasis> species in a lowland rain forest

The function of delayed greening in the seedlings of canopy tree species in a lowland tropical rain forest was examined in terms of its potential defensive value against herbivory. To explore the ecological and evolutionary backgrounds for delayed greening, we chose eight sympatric congeneric (Shorea) dipterocarp species that were either normal-greening or delayed-greening species. Expansion and toughening of leaves took approximately 30 days for all species, and did not differ between the normal- and delayed-greening species. The main factors that affected leaf damage during expansion were insect herbivory and fungal infection. Levels of leaf damage were significantly lower for delayed-greening species than for normal-greening species, but proportions of heavily damaged leaves and leaf abscission during expansion did not differ. In addition, no significant difference was found in damage levels on leaves (aged 1–2 months) of naturally occurring seedlings between normal- and delayed-greening species. Therefore, delayed greening may effectively reduce the level of leaf damage in young expanding leaves, but may not necessarily reduce leaf abscission and damage to mature leaves. The existence of delayed greening could not be simply explained by the phylogenetic and ecological backgrounds of the trees. Consequently, delayed greening may have a function in reducing damage during expansion, but more information (such as knowledge of the secondary metabolites involved in this phenomenon) is needed to explain fully why these species exhibit delayed greening.     

Herbivory pattern and induced responses to simulated herbivory inQuercus mongolica var.grosseserrata

Seasonal changes in leaf traits and the herbivory pattern ofQuercus mongolica var.grosseserrata were studied, and simulated herbivory experiments were carried out in order to evaluate leaf trait responses. Leaves ofQ. mongolica emerged simultaneously in spring and most were retained until autumn. Nitrogen concentration was highest when leaves first emerged and decreased rapidly with leaf age. Leaf mass per area (LMA) increased with leaf age. Herbivore attack was concentrated in the first 20 days after bud-break, which corresponded to the high nutritional value of the leaves for herbivores at this time. Simulated herbivory experiments indicated that LMA increased with artificial leaf damage, suggesting an increase in leaf toughness, and that nitrogen concentration decreased later in the season in comparison with intact leaves. As a result, herbivore attack following artificial leaf damage decreased with increasing initial leaf damage. However, leaf longevity was not affected by initial leaf damage. These responses were considered to be a strategy to disperse herbivory damage among leaves.     

Herbivory-induced stress: Leaf developmental instability is caused by herbivore damage in early stages of leaf development

Herbivory is a major source of plant stress and its effects can be severe, decreasing plant fitness, or subtle, affecting the development of leaves by influencing the normal pattern of growth and expansion of leaf blades. Fluctuating asymmetry (FA) analysis is recognized as a measure of plant stress, and can be used to evaluate subtle effects of herbivory on the imperfect growth of bilaterally symmetrical traits, such as leaves. One general issue is that authors usually consider FA as an indicator of stress, which can attract herbivores (plant stress hypothesis), and studies showing that herbivores themselves affect leaf symmetry (herbivory-induced stress hypothesis) are scarce, with mixed results. Here, we investigated the relationship between herbivory by thrips and leaf FA in Banisteriopsis malifolia and Heteropterys escallonifolia (Malpighiaceae). Pseudophilothrips obscuricornis is a free-living, non-pest, sucking species that feeds mainly on leaf buds. We hypothesized that herbivory by thrips in the early stages of leaf development would provoke increased FA levels in mature leaves. The results showed that thrips herbivory rate was low, affecting barely more than 1% of the leaf blade. Nonetheless, thrips-attacked leaves of B. malifolia and H. escallonifolia presented increases of 15 and 27% in leaf asymmetry, respectively, compared to uninjured leaves, corroborating the herbivory-induced stress hypothesis. Since herbivory by thrips in leaf buds was related to significant increases in the stress of mature leaves, we assume that under these circumstances, FA can be used as a biomarker for plant stress following herbivory damage. To be useful as a biomarker of stress, FA in plants must be investigated with caution, taking into account the natural history of the herbivore species and timing of leaf damage.     

福建梅花山17种常绿阔叶植物叶片虫食状况

从福建梅花山自然保护区海拔450m和1 200m的常绿阔叶林中选取17种常绿乔、灌木,对其叶片虫食状和取食强度进行分析,结果如下:(1)17种植物叶片共有15种虫食状类型,每种叶片虫食状类型为8~14;虫食状出现频率0.02%~37.01%,其中缘食状出现频率最高(37.01%),叶中脉食状出现频率最低(0.02%)。(2)木荷(Schima superba)的取食强度最大(9.60%),栲树(Castanopsis fargesii)次之(6.61%),油茶(Camellia Oleifera)最小(0.34%)。(3)15种虫食状类型中有6对虫食状呈显著正相关,2对呈显著负相关。(4)海拔1 200m处的甜槠(Castanopsis eyrei)、木荷、栲树和连蕊茶(Camellia fraterna)比海拔450m处的同种植物叶片的虫食强度高,其中木荷差异最大,从13.81%降至2.93%。     

The Influence of Leaf Development on the Expression of C4 Metabolism in Flaveria trinervia, a C4 Dicot

The initial products of ¹⁴CO₂ assimilation were determined understeady state illumination of leaves of Flaveria trinervia, aC₄ dicot of the NADP-mialic enzyme subgroup. Leaf age influencedthe partitioning of ¹⁴CO₂ between the C₄ cycle and the reductivepentose phosphate (RPP) pathway. An estimated 10 to 12%of theCO₂ entered the RPP pathway directly in leaves about 20% fullyexpanded, whereas CO₂ was apparently fixed entirely throughthe C₄ pathway in leaves 75% or more expanded. This partitioningpattern was attributed to the bundle sheath compartment in youngleaves having a relatively high conductance to CO₂ (i.e., beingsomewhat leaky). Of the initially labelled C₄ acids, the proportion that wasmalate, relative to aspartate, increased continuously duringleaf expansion (from 60 : 40 to 87 : 13 at full expansion).Concurrently, there was an increase in the whole leaf activityof NADP malate dehydrogenase and a decrease in the activitiesof aspartate and alanine aminotransferases. Low chlorophylla/b values were observed in young leaves, which may coincidewith an enhanced capacity for non-cyclic electron transportin the bundle sheath chloroplasts of such tissue. Both enhancedaspartate metabolism and direct fixation of CO₂ in the bundlesheath could provide a greater sink for utilization of photochemicallyderived NADPH in the bundle sheath of young leaves. Such metabolicchanges are discussed in relation to a possible decrease inCO₂ conductance of the bundle sheath during leaf development. (Received March 4, 1986; Accepted June 25, 1986)     

土壤水分亏缺对陆地棉花铃期叶片光化学活性和激发能耗散的影响

 为了探讨水分亏缺对叶片光合机构光化学量子效率和非辐射热耗散的影响,在新疆气候生态条件下,采用膜下滴灌技术精确地控制滴水量,实 现不同程度的土壤水分亏缺,系统测定了不同水分条件下陆地棉（Gossypium hirsutum）叶片叶绿素荧光参数、叶片接受光量子通量密度 （Photon flux density, PFD）、叶片温度（Leaf temperature, T_leaf）以及叶片水势和叶绿素含量的变化。研究表明：轻度水分亏缺（田间 持水量的 55%～60%）叶片接受的PFD与对照（田间持水量的70%～ 75%）无差异,T_leaf略高于对照;中度水分亏缺（田间持水量的40%～45%） 在12∶00 (北京时间,下同)以前叶片接受的PFD和对照无差异,随后显著低于对照,T_leaf在整个日变化中均高于对照。 不同水分处理对 黎明 前叶片PSⅡ最大光化学效率（The maximum photochemical efficiency of PSⅡ, F_v/F_m）没有影响。轻度水分亏缺叶片的实际光化学效率（PS Ⅱ photochemical efficiency,φPSⅡ）、表观电子传递速率（ Electron transport rate, ETR）和光化学猝灭系数（Photochemical quenching,q_p）的日变化与对照基本一致,非光化学猝灭系数（Non-photochemical quenching, NPQ）在12∶00以前和14∶00以后显著低于对 照,在12∶00～14∶00和对照无差异。中度水分亏缺叶片的φPSⅡ、ETR和qp在12∶00才显著降低,此后由于叶片出现暂时萎焉、下垂,所接受 的PFD减弱,叶绿素荧光参数缓慢恢复,且高于对照;NPQ在12∶00 以前显著高于对照,14∶00略高于对照,此后低于对照。水分亏缺导致中午 叶片水势和叶绿素a、叶绿素b含量降低,但叶绿素a/b比值升高。因此,在田间条件下,陆地棉可通过叶片萎焉下垂运动和叶绿素含量的变化调 节叶片对光能的捕获,以及通过光合电子传递、热耗散水平的变化来适应水分亏缺的逆境。在中度水分亏缺条件下,陆地棉叶片萎焉下垂运动 的被动调节减少了过量激发能对光合机构的伤害,保证了光合机构的正常运转。