穿透雨减少下锐齿栎叶片光合色素季节动态及其反射光谱响应

通过林地穿透雨排除的方法模拟降雨减少,测定河南宝天曼自然保护区锐齿栎叶片光合色素含量与反射光谱的季节变化,对减雨处理造成的光合色素变化及其反射光谱的变化进行了定量分析,并探讨了水分控制条件下反射光谱对叶片光合色素变化的响应机制.结果表明: 锐齿栎叶片的光合色素含量和色素比率均呈现明显的季节变化.减雨样地与对照样地叶片的光合色素含量和比率在生长季的各个时期存在差异,其中,叶片叶绿素b(Chl b)含量的差异显著,说明Chl b对减雨处理的敏感性最高,叶片类胡萝卜素(Car)含量的差异较小,说明Car对减雨处理的敏感性相对较弱.550 nm处的光谱反射率对色素季节变化的响应最敏感,以其构造的简单比值指数(SR_750,550)与叶片Chl a、Chl b、总Chl和Car含量的正相关关系显著,光化学反射指数(PRI)与叶片Car/Chl的负相关关系显著.550 nm处的光谱反射率对减雨处理造成的色素变化响应最为敏感.SR_750,550对减雨处理造成的叶片Chl a、Chl b和总Chl的含量变化表现敏感(P<0.01),对Chl a/b的变化不敏感.PRI对减雨处理造成的叶片Car/Chl变化表现敏感(P<0.01).     

FACE条件下大气O3浓度增高对小麦剑叶光合色素含量的影响

应用FACE研究平台,采用烟农19、扬麦16、嘉兴002、扬麦15和扬辐麦2号等5个小麦品种,以O₃自然浓度为对照,研究了大气O₃浓度增高50%对不同小麦品种剑叶光合色素含量的影响.结果表明：开放式大气O₃浓度增高条件下,小麦剑叶叶绿素a (Chl a)、叶绿素b (Chl b)、叶绿素总量Chl(a+b)和类胡萝卜素含量在孕穗期和开花期与对照差异不显著,而花后各时期均不同程度的降低,其中,Chl a、Chl b和Chl(a+b)含量下降达显著水平,说明大气O₃浓度增高对叶绿素合成影响较小,但加速了其衰降过程.不同品种小麦剑叶光合色素含量对大气O₃浓度增高的反应存在基因型差异,扬麦15和嘉兴002对大气O₃浓度增高的敏感性弱于扬麦16、扬辐麦2号和烟农19.在籽粒灌浆盛期(花后21 d左右),剑叶Chl a、Chl b和Chl(a+b)含量与千粒重呈显著正相关.     

施氮肥缓解臭氧对小麦光合作用和产量的影响

以小麦(Triticum aestivum)品种‘扬麦16’为试材, 利用开放式空气臭氧(O₃)浓度升高平台, 研究了增施氮(N)肥对O₃对小麦光合作用和产量影响的缓解作用。结果表明, O₃胁迫下灌浆期小麦的净光合速率(P_n)、气孔导度(G_s)、蒸腾速率(T_r)、叶绿素a (Chl a)、叶绿素b (Chl b)、类胡萝卜素(Car)、总叶绿素含量(Chl t)和可溶性蛋白的含量显著降低, 降幅分别为28.95%、31.79%、23.17%、58.89%、68.64%、22.89%、60.31%和32.00%; 胞间CO₂浓度(C_i)变化很小; 成熟期生物量和收获时产量也明显下降, 降幅分别为12.23%和12.63%; 而增施N肥可以增加小麦灌浆期的P_n、Chl a、Chl b、可溶性蛋白的含量, 进而增加小麦生物量和产量, 增幅分别为25.66%、83.05%、121.57%、30.33%、14.94%和10.67%, 而对C_i、G_s、T_r、Car含量无明显影响。O₃和N肥对小麦叶片的P_n、Chl t及可溶性蛋白含量有明显的交互作用。因此, 在大气O₃浓度升高条件下增施N肥对小麦O₃损伤有一定的缓解作用。     

刨花楠和华东润楠叶绿素含量分异特征及与净光合速率的关系

采用SPAD-502叶绿素计、LI-6400型便携式光合分析仪与分光光度法分别对种子源于江西遂川(MPS)和福建建瓯(MPJ)的3年生刨花楠与江西上犹(MLG)的3年生华东润楠苗木叶片的SPAD值、净光合速率(P_n)和叶绿素a+b含量(C_t) 进行了测定.结果表明：3种苗木叶片叶绿素含量存在显著差异,其SPAD值、叶绿素a+b、叶绿素a与叶绿素b含量均为MPS-1.受叶肉组织发育成熟程度影响,当年生新叶的叶绿素含量低于2年生叶片.MPS与MPJ刨花楠同一叶龄叶片不同冠层间的C_t次序为上冠层<中冠层<下冠层,华东润楠则为上冠层<下冠层<中冠层.同一叶片不同观测部位间的SPAD值次序为尖端<中部<基部.叶片的SPAD值与叶绿素a+b含量呈显著正相关,与P_n虽存在正相关,但不显著.     

不同透光环境下红松光合色素含量的季节变动及应对策略

研究了辽东山区天然次生林内3种不同透光环境(强度透光、中度透光和弱度透光)下红松针叶光合色素(叶绿素a(Chl a)、叶绿素b(Chl b)、类胡萝卜素(Car)和叶绿素总量(Chl T))应对光环境季节变动做出的适应性调整。结果表明,随季节的变动(从春季至秋季),林分透光孔隙度逐渐减小。春季,透光度越大,红松叶绿素含量越高,Chl a/b值升高,Car/Chl T值降低;夏季,不同透光条件对红松光合色素含量无影响;秋季,各类透光条件下红松光合色素含量总体表现为升高的趋势,强度透光与中度透光条件红松针叶Chl a/b显著大于弱度透光,3种透光条件下红松Car/Chl T均降低。在春季红松开始生长前进行适当抚育,能提高光合色素含量,增强光合作用能力,促进生长。     

绿斑病藻寄生对夏橙叶片光合作用特性的影响

以盆栽的2年生奥灵达夏橙为试材,研究了绿斑病藻寄生对夏橙叶片光合作用特性的影响.结果表明,轻度病叶对叶绿素总量（Chl a+b）、类胡萝卜素含量（Car）、净光合速率（P_n）、胞间CO₂浓度（C_i）、原初光能转换效率（F_v/F_m）、光合电子传递量子效率（ΦPS Ⅱ）和光化学猝灭系数（qP）无显著影响;中度病叶和重度病叶的Chla+b、Car、P_n、F_v/F_m、ΦPS Ⅱ和qP较对照分别下降了23.85%、26.49%、43.3%、4.5%、35.1%、22.5%和37.61%、44.04%、64.5%、8.6%、63.6%、40.1%,与对照差异显著,而C_i较对照显著上升.绿斑病藻的大量寄生减弱了夏橙叶片的光合作用,而净光合速率的下降主要是由非气孔因素限制引起.     

金叶银杏半同胞子代无性系的叶色和色素含量变化及呈色机制分析

对4月份至11月份金叶银杏‘万年金'( Ginkgo biloba ‘Wannianjin')32个半同胞子代无性系与亲本的叶色差异进行比较;比较了不同色系叶片的色素含量和比值及叶色参数(L*、a*和b*)的变化,分析了叶色参数与叶片色素含量的相关性;并观察了不同色系的叶绿体超微结构。结果表明：32个半同胞子代无性系可被分为金黄、浅黄、草绿和蓝绿4个色系。随时间推移,草绿和蓝绿色系叶片的总叶绿素( Chl)、叶绿素a( Chla)、叶绿素b( Chlb)和类胡萝卜素( Car)含量均呈“双峰型”变化趋势,Car/Chl和Car/Chla比值的变幅均较小;而金黄和浅黄色系叶片的上述色素含量呈“升高—降低—升高”变化趋势,Car/Chl和Car/Chla比值总体呈“迅速下降—相对稳定—缓慢升高”的变化趋势。各色系叶片的上述色素含量在夏季均不同程度下降,Car/Chlb比值变化差异较大,且金黄和浅黄色系的各色素含量均低于草绿和蓝绿色系。随时间推移,金黄和浅黄色系叶片的L*、a*和b*值以及草绿和蓝绿色系叶片的L*和b*值均先降低后升高,后2个色系的a*值则先升高后下降;并且,前2个色系的L*和b*值总体上显著高于后2个色系,而a*值则总体上低于后2个色系。金黄色系的Chla和Chl含量与L*和a*值显著负相关,而其Car/Chl和Car/Chla比值则与L*、a*和b*值显著或极显著正相关;浅黄色系的Chlb含量与a*值显著负相关,其Car/Chla比值与L*和b*值以及Car/Chlb比值与a*值均显著正相关;草绿色系的Chla含量与L*值显著负相关,其Car/Chla比值与L*和b*值以及Car/Chlb比值与a*值均显著正相关;这3个色系叶片的其余指标间以及蓝绿色系叶片的各指标间均无显著相关性。观察结果显示：金黄和浅黄色系的叶绿体基粒片层发育不健全,基粒片层可见但排列较疏松,且无明显垛叠,分布范围小而稀疏;蓝绿和草绿色系叶绿体的基粒类囊体垛叠层数均较多,基粒片层发达且排列紧致、整齐,分布范围大而稠密。综合分析结果表明：‘万年金'4个色系半同胞子代无性系叶片的呈色差异和叶色变化由多种因素控制,其中,Car/Chl和Car/Chla比值高且叶绿体基粒片层发育不健全是叶片呈黄色的主要原因。     

施氮量对小麦叶片硝酸还原酶活性、一氧化氮含量和气体交换的影响

研究了不同施氮量对冬小麦分蘖到抽穗期叶片硝酸还原酶(NR)活性、一氧化氮(NO)含量、气体交换参数和籽粒产量的影响.结果表明:叶片光合速率（P_n）、蒸腾速率（T_r）、瞬时水分利用效率（IWUE）和产量均随施氮量的增加呈先升高后降低的趋势,在180 kg·hm^-2氮处理时达到最高.随施氮量的增加,叶片NR活性提高; 在分蘖期和拔节期,叶片NR活性与NO含量呈显著线性相关（R²≥0.68,n=15）,NO含量和气孔导度（G_s）呈显著正二次相关（R²≥0.43,n=15）;低氮处理下,NR活性较低使叶片NO含量维持在较低水平,促进气孔开放,高氮处理下,NR活性较高使叶片NO含量增加,诱导气孔关闭;在抽穗期叶片NR活性和NO含量无显著相关关系,虽然NO含量和G_s也呈显著正二次相关（R²≥0.36,n=15）,但不能通过施氮提高NR活性来影响叶片NO含量,进而调节叶片气孔行为.合理施氮使小麦叶片NO含量维持在较低水平,可提高叶片G_s、T_r和IWUE,增强作物抗旱能力,促进光合作用,提高小麦产量.     

铜胁迫条件下AMF对海州香薷光合色素含量、抗氧化能力和膜脂过氧化的影响

以盆栽海州香薷为研究对象,模拟Cu胁迫条件下,接种丛枝菌根真菌(AMF)对海州香薷叶片光合色素含量、抗氧化酶活性、抗氧化剂含量、膜脂过氧化程度的影响。结果表明:(1)与对照相比,Cu胁迫使海州香薷叶片叶绿素a(Chl a)、叶绿素b(Chl b)、总叶绿素(Chl(a+b))、类胡萝卜素(Car)含量以及叶绿素a/b(Chl a/b)均显著降低,抗氧化酶活性和抗氧化剂含量也显著下降,质膜相对透性(MRP)和丙二醛(MDA)含量显著增大。(2)与Cu胁迫相比,Cu胁迫下接种AMF可使海州香薷叶片叶绿素含量显著增加;超氧化物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)活性显著提高;还原型谷胱甘肽(GSH)、抗坏血酸(As A)含量显著增加;MDA含量、MRP显著下降。总之,接种AMF可提高Cu胁迫下海州香薷叶片光合色素含量和抗氧化能力,降低膜脂过氧化水平,从而缓解Cu胁迫对植株造成的伤害,增强海州香薷对Cu胁迫的适应性,提高了植株的生物量。     

FACE条件下大气O3浓度增高对小麦剑叶光合色素含量的影响

应用FACE研究平台,采用烟农19、扬麦16、嘉兴002、扬麦15和扬辐麦2号等5个小麦品种,以O3自然浓度为对照,研究了大气O3浓度增高50％对不同小麦品种剑叶光合色素含量的影响.结果表明:开放式大气O3浓度增高条件下,小麦剑叶叶绿素a(Chl a)、叶绿素b(Chl b)、叶绿素总量Chl(a+b)和类胡萝卜素含量在孕穗期和开花期与对照差异不显著,而花后各时期均不同程度的降低,其中,Chl a、Chl b和Chl(a+b)含量下降达显著水平,说明大气O3浓度增高对叶绿素合成影响较小,但加速了其衰降过程.不同品种小麦剑叶光合色素含量对大气O3浓度增高的反应存在基因型差异,扬麦15和嘉兴002对大气O3浓度增高的敏感性弱于扬麦16、扬辐麦2号和烟农19.在籽粒灌浆盛期(花后21 d左右),剑叶Chl a、Chl b和Chl(a+b)含量与千粒重呈显著正相关.     

基于高光谱遥感的小麦冠层叶片色素密度监测

作物叶片色素状况是评价植株光合效率和营养胁迫的重要指标,冠层叶片色素密度（单位土地面积叶片色素总量）的实时无损监测对作物生长诊断、产量估算及氮素管理具有重要意义。以包括不同品质类型（高蛋白、中蛋白和低蛋白）的多个小麦品种在不同施氮水平下的连续2a大田试验为基础,研究了小麦叶片色素密度与冠层高光谱参数的定量关系。结果表明,叶片色素（叶绿素a、叶绿素b、叶绿素a＋b和类胡萝卜素）密度随施氮水平增加而提高,不施氮处理的叶片色素密度随生育进程而下降,施氮处理的叶片色素密度呈单峰曲线,品种间存在明显差异。群体叶片色素密度的敏感波段主要分布在可见光区,而红边区域导数光谱表现更显著。光谱参数VOG2、VOG3、RVI（810,560）、SRE／SBE和SDr／SDb等与叶绿素密度关系较为密切,线性方程决定系数R^2均在0．858以上,而与类胡萝卜素密度关系减弱,决定系数R^2低于0．780,且参数间差异较小。经独立试验资料的检验表明,VOG2、VOG3、SRE／SBE和SDr／SDb对不同色素的估测结果较好,预测相对误差RE低于17．6％,虽然对叶绿素b的准确性稍低。总体上,光谱参数VOG2、VOG3、SRE／SBE和SDr／SDb与小麦群体叶片色素密度关系密切,特别是对叶片叶绿素a和叶绿素a＋b的密度可以进行准确可靠的实时监测。     

MODIS植被指数与水稻叶面积指数及叶片叶绿素含量相关性研究

利用光谱分辨率为3nm的ASD FieldSpec UV／VNIR光谱仪获得了2002和2003年水稻整个生长期的高光谱数据,同时对水稻叶面积指数(LAI)和叶绿素含量(CHL．Ｃ)进行了测定,对中分辨率成像光谱仪(MODIS)的增强植被指数(EVI)、归一化植被指数(NＤVI)以及红边位置(REP)与LAI及CHL．C之间的关系进行了研究．结果表明。LAI与冠层光谱在可见光、近红外波段相关性较好,叶绿素含量与冠层光谱在红光波段相关性较好．EVI、REP和LAI之间的相关关系不受水稻覆盖率的影响;NDVI与LAI的相关关系在水稻低覆盖率情况下较好;在水稻高覆盖率情况下。EVI和REP比NDVI与LAI之间的相关关系要好．MODIS-NDVI、EVI及REP与叶片叶绿素含量相关性较好．由此可见,EVI和REP可以有效地监测水稻LAI和CHL．C．     

Spectral reflectance indices and pigment functions during leaf ontogenesis in six subtropical landscape plants

Pigment combinations are regulated during leaf ontogenesis. To better understand pigment function, alterations in chlorophyll, carotenoid and anthocyanin concentrations were investigated during different leaf development stages in six subtropical landscape plants, namely Ixora chinensis Lam, Camellia japonica Linn, Eugenia oleina Wight, Mangifera indica L., Osmanthus fragrans Lowr and Saraca dives Pierre. High concentrations of anthocyanin were associated with reduced chlorophyll in juvenile leaves. As leaves developed, the photosynthetic pigments (chlorophyll and carotenoid) of all six species increased while anthocyanin concentration declined. Chlorophyll fluorescence imaging of Φ_PSII (effective quantum yield of PSII) and of NPQ (non-photochemical fluorescence quenching) and determination of electron transport rate-rapid light curve (RLC) showed that maximum ETR (leaf electron transport rate), Φ_PSII and the saturation point in RLC increased during leaf development but declined as they aged. Juvenile leaves displayed higher values of NPQ and Car/Chl ratios than leaves at other developmental stages. Leaf reflectance spectra (400–800 nm) were measured to provide an in vivo non-destructive assessment of pigments in leaves during ontogenesis. Four reflectance indices, related to pigment characters, were compared with data obtained quantitatively from biochemical analysis. The results showed that the ARI (anthocyanin reflectance index) was linearly correlated to anthocyanin concentration in juvenile leaves, while a positive correlation of Chl NDI (chlorophyll normalized difference vegetation index) to chlorophyll a concentration was species dependent. Photosynthetic reflectance index was not closely related to Car/Chl ratio, while a structural-independent pigment index was not greatly altered by leaf development or species. Accordingly, it is suggested that the high concentration of anthocyanin, higher NPQ and Car/Chl ratio in juvenile leaves are important functional responses to cope with high radiation when the photosynthetic apparatus is not fully developed. Another two leaf reflectance indices, ARI and Chl NDI, are valuable for in vivo pigment evaluation during leaf development.     

Predictive capability of a leaf optical meter for determining leaf pigment status during senescence

We conducted an experiment to assess the predictive capability of a leaf optical meter for determining leaf pigment status of Acer mono Maxim., A. ginnala Maxim., Quercus mongolica Fisch., and Cornus alba displaying a range of visually different leaf colors during senescence. Concentrations of chlorophyll (Chl) a, Chl b, and total Chl [i.e., Chl (a+b)] decreased while the concentration of carotenoids (Car) remained relatively static for all species as leaf development continued from maturity to senescence. C. alba exhibited the lowest average concentration of Chl (a+b), Chl a, and Car, but the highest relative anthocyanin concentration, while Q. mongolica exhibited the highest Chl (a+b), Chl b, and the lowest relative anthocyanin concentration. A. mono exhibited the highest Chl a and Car concentrations. The relationships between leaf pigments and the values measured by the optical meter generally followed an exponential function. The strongest relationships between leaf pigments and optical measurements were for A. mono, A. ginnala, and Q. mongolica (R ² ranged from 0.64 to 0.95), and the weakest relationships were for C. alba (R ² ranged from 0.13 to 0.67). Moreover, optical measurements were more strongly related to Chl a than to Chl b or Chl (a+b). Optical measurements were not related to Car or relative anthocyanin concentrations. We predicted that weak relationships between leaf pigments and optical measurements would occur under very low Chl concentrations or under very high anthocyanin concentrations; however, these factors could not explain the weak relationship between Chl and optical measurements observed in C. alba. Overall, our results indicated that an optical meter can accurately estimate leaf pigment concentrations during leaf senescence — a time when pigment concentrations are dynamically changing — but that the accuracy of the estimate varies across species. Future research should investigate how species-specific leaf traits may influence the accuracy of pigment estimates derived from optical meters.     

Effects of cadmium and salicylic acid on growth, spectral reflectance and photosynthesis of castor bean seedlings

Salicylic acid (SA) is a potent signaling molecule in plants and is involved in eliciting specific responses to biotic and abiotic stresses. The aim of this study is to investigate whether the exogenous application of SA can improve cadmium (Cd) induced inhibition of photosynthesis in castor bean (Ricinus communis L.) plants. The effects of SA and Cd on plant growth, spectral reflectance, pigment contents, chlorophyll fluorescence and gas exchange were examined in a hydroponic cultivation system. Results indicate that Cd exposure significantly decreased the dry biomass, photosynthetic rate (P_n), stomatal conductance (G_s), intercellular CO₂ concentration (C_i), pigment contents, quantum yield of PS II photochemistry (F_v/F_m), and effective quantum yield of PS II (??PS II) in the plants. Pretreatment with SA alone reduced the biomass and P_n in castor bean plants, whereas pigment contents, F_v/F_m and ??PS II remained unaffected. Reduced G_s, C_i and E, as well as increased stomatal limitation (L_s) and water use efficiency (WUE), were observed in plants pretreated with 500???M SA alone, whereas plants treated with 250???M SA were unaffected. Under Cd stress, SA pretreatment led to a significant decrease in P_n, G_s, E, C_i, and chlorophyll contents (Chl a, Chl b, Chl a+b, Car, Chl a/b), and an increase in L_s and WUE. Cd exposure enhanced spectral reflectance in the range 550?C680?nm and 750?C1,050?nm. It also decreased the normalized difference vegetation index (_chlNDI), the modified red edge simple ratio index (mSR₇₀₅), the red edge position (REP), water band index, and red/green ratio, whereas the structure independent pigment index (SIPI) was increased. Significant correlations (P?<?0.01) between spectral indices (mSR₇₀₅, _chlNDI, REP, red/green ratio) and pigment contents. SA significantly worsened plant growth and photosynthesis in Cd-stressed castor bean plants, in which a stomatal limitation was involved. The leaf spectral reflectance is a sensitive indicator in determining Cd toxicity in plants.     

水稻上部叶片叶绿素含量的高光谱估算模型

叶片叶绿素 (Chl) 状况是评价植株光合效率和营养胁迫的重要指标,实时无损监测Chl状况对作物生长诊断及氮素管理具有重要意义.以不同生态点、不同年份、不同施氮水平、不同类型水稻品种的4个田间试验为基础,于主要生育期同步测定了水稻主茎顶部4张叶片的高光谱反射率及Chl含量,并计算了350～2500 nm范围内任意两波段组合而成的比值(SR[λ1,λ2])和归一化(ND[λ1,λ2])光谱指数以及已报道的对Chl敏感的光谱指数,进一步系统分析了叶片Chl含量与上述光谱指数之间的定量关系.结果表明,红边波段的比值和归一化光谱指数可以较好地预测水稻上部4叶的Chl含量(R~2>0.9),但对于不同Chl指标其最佳组合波段有所差异.估算叶绿素a (Chla)、叶绿素总量(Chla+b)和叶绿素b (Chlb)的最佳比值光谱指数分别为SR(724,709)、SR(728,709)和SR(749,745),方程拟合决定系数R~2分别是0.947、0.946、0.905;最佳归一化光谱指数分别为ND(780,709)、ND(780,712)和ND(749,745),R~2分别是0.944、0.943、0.905.引入445 nm波段反射率对上述光谱指数进行修正,可以降低叶片表面反射差异的影响,提高模型的应用范围.利用不同年份独立的试验资料对所建模型进行了检验,结果表明,修正型比值光谱指数 mSR(724,709)、mSR(728,709) 和 mSR(749,745),以及修正型归一化光谱指数mND(780,709)、mND(780,712) 和 mND(749,745) 预测 Chla、Chla+b 和 Chlb 的效果更好,其测试的RMSE分别为 0.169、0.192、0.052、0.159、0.176、0.052,RE分别为8.18%、7.74%、13.01%、8.26%、7.59%、12.96%,均较修正前降低,说明修正后的光谱指数普适性更好.