杂交棉标杂A1和石杂2号超高产冠层特性及其与群体光合生产的关系

在田间自然条件下, 以标杂A₁、石杂2号为材料, 研究了超高产(3 500 kg hm^-2以上)杂交棉冠层的叶面积配置、叶倾角和光分布等冠层特性的变化及与群体光合生产的关系。结果表明, 超高产条件下杂交棉叶面积指数高且持续期长, 群体叶面积配置与光分布较均匀, 花铃期冠层中部有较好的透光性, 吐絮期底部漏光损失较小, 整个冠层仍保持较高的光吸收率。超高产杂交棉不仅群体光合速率峰值高, 而且高值持续时间长, 生育后期非叶器官仍维持较高的光合能力, 特别是茎的光合贡献率为常规高产棉花的1.6~4.9倍, 这是杂交棉在生育后期能保证群体光合优势的一个重要原因。超高产杂交棉的棉铃干物质空间分布与叶分布、光分布和冠层光合分布的比例吻合程度较高, 保证了光能的有效利用, 促进同化物及时向棉铃转运, 有利于挖掘杂交棉品种的增产潜力。     

杂交棉标杂A1和石杂2号超高产冠层特性及其与群体光合生产的关系

在田间自然条件下, 以标杂A₁、石杂2号为材料, 研究了超高产(3 500 kg hm^-2以上)杂交棉冠层的叶面积配置、叶倾角和光分布等冠层特性的变化及与群体光合生产的关系。结果表明, 超高产条件下杂交棉叶面积指数高且持续期长, 群体叶面积配置与光分布较均匀, 花铃期冠层中部有较好的透光性, 吐絮期底部漏光损失较小, 整个冠层仍保持较高的光吸收率。超高产杂交棉不仅群体光合速率峰值高, 而且高值持续时间长, 生育后期非叶器官仍维持较高的光合能力, 特别是茎的光合贡献率为常规高产棉花的1.6~4.9倍, 这是杂交棉在生育后期能保证群体光合优势的一个重要原因。超高产杂交棉的棉铃干物质空间分布与叶分布、光分布和冠层光合分布的比例吻合程度较高, 保证了光能的有效利用, 促进同化物及时向棉铃转运, 有利于挖掘杂交棉品种的增产潜力。     

棕色棉与白色棉杂交F1代吐絮期光合特性的杂种优势研究

 选择4个棕色棉品种（系）与5个白色棉品种进行不完全双列杂交,得正反交组合各20个,测定了吐絮期正反交组合的净光合速率、胞间CO₂浓度、叶绿素含量,叶绿素a/b、PSII的最大光化学效率,分析杂交F₁代光合参数的杂种优势表现与正反交之间的差异。结果表明：吐絮期杂种F₁各项光合参数没有明显的正向中亲优势、正向超亲优势。正反交组合之间,除胞间CO₂浓度存在显著差异外,其它光合参数差异不显著,胞间CO₂浓度受到细胞质效应影响。正交组合F1叶绿素含量与胞间CO₂浓度存在显著正相关,反交组合F₁净光合速率与胞间CO₂浓度存在极显著正相关。     

缩节胺（DPC）对干旱区杂交棉冠层结构及群体光合生产的调节

 在干旱气候生态条件下,设置常规化调和轻量化调2种方式,以常规棉品种为对照,研究了不同剂量缩节胺（DPC）对杂交棉品种冠层结构及群体光合生产的影响。结果表明,轻量化调下,杂交种标杂A₁和石杂2号棉株主茎第6及以上节间长度明显增加,叶面积指数增大且生育后期下降较缓,光截获量增加;植株叶倾角增大,叶片较直立,冠层开度较大,透光良好,群体光合速率峰值高且高值持续期较长,光合物质积累量明显增加,皮棉产量显著提高。常规棉花品种新陆早13号和新陆早36号第6及以上节间长度变化不大,叶面积指数峰值高但生育后期下降较快,生育后期漏光损失严重,群体光合速率下降,产量显著降低。因此,采用轻量化调,有助于杂交种形成高光效冠层结构,增强群体光合生产能力,发挥其生长优势,提高产量。     

基于高光谱数据的棉花冠层FPAR和LAI的估算研究

 通过非成像高光谱仪和光量子传感器,获取了棉花2品种4水平种植密度冠层关键生育时期的反射光谱数据和光合有效辐射值;利用光谱多元统计分析技术与微分处理,分析表明,反射光谱813 nm（_ρ813）和758 nm（_ρ758）处分别是光合有效辐射截获量（FPAR）和叶面积指数（LAI）的敏感波段。用反射率_ρ813和_ρ758分别与FPAR和LAI建立的线性相关模型方程估测FPAR和LAI,经检验,它们的实测值与估测值之间均呈极显著的线性相关（r_FPAR=0.7199^**,r_LAI=0.6430^**,α=1％,n=70）,模型方程的估算精度分别达96.5%、81.7%;而一阶微分光谱数据与FPAR在350 ~2500 nm波段范围相关不显著,与LAI的最大相关发生在734 nm波段处。基于一阶微分光谱_ρ′734与棉花冠层LAI线性相关的模型方程,估测LAI,实测值与估测值之间呈极显著的线性相关（r_LAI=0.6947^**,α=1％,n=70）,估算精度为82.4%,与反射光谱758 nm估测LAI的精度接近。结果表明,棉花冠层光谱数据可以对光合有效辐射截获量FPAR和LAI进行实时、无损、动态、定量的估算。     

小偃54和京411及其杂交后代稳定优选株系光合特性的动态变化

以上海种植的小偃54和京411及其杂交后代稳定优选株系6号、7号和10号为材料,通过测定抽穗期剑叶的毫秒延迟发光(ms-DLE)和不同生育期倒数第1片功能叶的光合速率(P_n)、叶绿素含量(Chl)、比叶重(SLW)、F_v/F_m、ATP含量和P700还原初始速率来分析其光合特性的动态变化,为小麦育种选择中改善光合性能提供理论依据和技术途径。结果表明,小麦杂交优选后代6号株系的形态农艺性状近于小偃54,7号株系近于京411,10号株系的变异较大。不同基因型小麦及其杂交优选后代的光合特性与生育时期和衡量指标密切相关,P_n为分蘖期>抽穗期>灌浆期>拔节期,叶绿素含量为灌浆期>抽穗期>分蘖期>拔节期,ATP含量为灌浆期>拔节期>分蘖期>抽穗期,P700还原初始速率为灌浆期>抽穗期>拔节期>分蘖期,各生育期间的F_v/F_m无明显差异。小麦光合特性的超亲优势随生育时期而异,杂交优选后代10号株系的P_n和Chl在灌浆期有超亲优势,ATP含量在抽穗期有超亲优势,SLW和P700还原初始速率介于两亲本间。杂交优选后代株系10号聚合了P_n、Chl和ATP含量的超亲优势,其光合特性优于两亲本,而6号劣于两亲本,7号介于两亲本之间。     

小偃54和京411及其杂交后代稳定优选株系光合特性的动态变化

以上海种植的小偃54和京411及其杂交后代稳定优选株系6号、7号和10号为材料,通过测定抽穗期剑叶的毫秒延迟发光(ms-DLE)和不同生育期倒数第1片功能叶的光合速率(P_n)、叶绿素含量(Chl)、比叶重(SLW)、F_v/F_m、ATP含量和P700还原初始速率来分析其光合特性的动态变化,为小麦育种选择中改善光合性能提供理论依据和技术途径。结果表明,小麦杂交优选后代6号株系的形态农艺性状近于小偃54,7号株系近于京411,10号株系的变异较大。不同基因型小麦及其杂交优选后代的光合特性与生育时期和衡量指标密切相关,P_n为分蘖期>抽穗期>灌浆期>拔节期,叶绿素含量为灌浆期>抽穗期>分蘖期>拔节期,ATP含量为灌浆期>拔节期>分蘖期>抽穗期,P700还原初始速率为灌浆期>抽穗期>拔节期>分蘖期,各生育期间的F_v/F_m无明显差异。小麦光合特性的超亲优势随生育时期而异,杂交优选后代10号株系的P_n和Chl在灌浆期有超亲优势,ATP含量在抽穗期有超亲优势,SLW和P700还原初始速率介于两亲本间。杂交优选后代株系10号聚合了P_n、Chl和ATP含量的超亲优势,其光合特性优于两亲本,而6号劣于两亲本,7号介于两亲本之间。     

三系杂交棉花粉育性对高温和低温胁迫的反应

为研究在高温和低温胁迫条件下的三系杂交棉花粉育性稳定性问题,利用棉花细胞质雄性不育系和恢复系,配制2个三系杂交棉组合,抗A×浙大强恢(记作：强恢F₁)和抗A×DES-HMF277(记作：弱恢F₁),并以保持系(抗B)为对照,分别进行温室控温试验和田间自然温度试验,分析三系杂交棉对高温和低温胁迫的反应和花粉育性转换(可育至不育)的临界温度。试验表明,一般三系杂交棉的花粉育性对胁迫温度的反应比保持系敏感,常常花粉散粉少和花粉活力较低。不同三系杂交棉组合对胁迫温度的抗性存在明显差异,强恢F₁明显高于弱恢F₁,与保持系的育性相似,可育花粉率和自交结铃率较高,不孕籽率较低。经可育花粉率(Y)与温度(T)的回归分析,花粉育性转换的临界温度符合Y = a (T–T_opt)²+b模型。强恢F₁育性转换的上限和下限温度分别为38.0℃和13.0℃,弱恢F₁为36.0℃和14.0℃,保持系为38.5℃和10.0℃。与低温胁迫比较,高温胁迫在我国大部分棉区更普遍,持续时间更长,对产量影响更大。提高三系杂交棉在胁迫气温条件下的花粉育性的稳定性是近期育种的重要目标。     

沼液与尿素配施对冬小麦光合特性及产量的影响

2007—2009年度,在总施氮量相同的条件下,比较了沼液与尿素氮肥不同基追比对冬小麦品种温麦28光合特性及产量的影响。在基施沼液的基础上追施尿素,提高叶片PSII潜在活性(F_v/F_o)、PSII光化学最大效率(F_v/F_m)和荧光光化学猝灭系数(q_P),降低荧光非光化学猝灭系数(q_N),其PSII量子效率(ΦPSII)和电子传递速率(ETR)优势明显,具有较高的光合速率,尤其是基施25%沼液氮+追施75%尿素氮处理,光合功能强,籽粒产量最高,2007—2008年度达8 277.90 kg hm^-2,2008—2009年度为7 318.07 kg hm^-2。整个生育期单施沼液处理使小麦营养生长过旺,荧光参数变劣,光合速率下降,产量显著降低。单施尿素氮肥处理F_v/F_o和F_v/F_m在开花期前具有明显优势,但在开花期后不再延续前期优势,Φ_PSII和ETR参数年度间存在差异,q_P值持续低于基施沼液追施尿素的配施处理,而q_N值表现相反,荧光参数间不够协调,产量较基施沼液追施尿素处理降低,而较单施沼液处理显著提高。     

节节麦和黑麦杂种F1及双二倍体中基因组变异分析

人工合成的双二倍体在遗传和植物育种中有重要作用。为探讨远缘杂交后代双二倍体育性提高及其细胞学稳定的分子机制,利用ALFP、MASP技术对节节麦-黑麦杂种及其双二倍体S₁~S₄代的基因组变异进行了分析。该双二倍的S₁~S₄代体细胞染色体数2n = 28的植株的比例从57.1%提高到92.5%,2n = 28的植株的花粉母细胞减数分裂中期二价体平均数目从11.7提高到12.25,平均结实率从24.5%提高到51.3%。利用两套分别扩增重复序列和单拷贝序列的酶切引物组合EcoR I/Mse I (E-M)、Pst I/Mse I (P-M)对节节麦–黑麦杂种F₁和双二倍体S₁~S₄代扩增表明,基因组序列变异主要发生于F₁代,且以序列消除为主。E-M和P-M引物扩增带中, 节节麦基因组在F₁代的序列消除带数占各代总消失带数的70.00%和52.95%,而在黑麦基因组为96.88%和81.64%。MSAP分析表明节节麦和黑麦杂种和加倍能够导致节节麦和黑麦基因组序列甲基化状态改变,以甲基化为主,仅发生在F₁和S₁代。在S₂~S₄代中没有检测到甲基化变异。     

Heterosis in yield,fiber quality,and photosynthesis of okra leaf oriented hybrid cotton (<Emphasis Type="Italic">Gossypium hirsutum</Emphasis> L.)

Leaf shape is an important factor affecting canopy structure, photosynthetic characteristics, and yield. Introducing okra leaf shape is considered an important strategy in cotton heterosis breeding. The objective of the study was to evaluate the heterosis in okra leaf cotton hybrid F₁s, which were developed by crossing two sterile near isolines and three restorer near isolines. A normal leaf check hybrid F₁, Zhongza 29, and four newly developed okra leaf oriented hybrid F₁s, including the super-okra (severely cleft and narrowly lobed leaf), okra (deeply cleft and narrowly lobed leaf), semi-okra (intermediate leaf lobe), and sub-okra (large leaf lobe) hybrids were selected in this experiment. Okra leaf oriented cotton hybrids significantly reduced leaf area index (LAI) (P < 0.0001), thus more light penetrated into the lower canopy. The LAIs for the super-okra and okra hybrids, however, were too small to supply adequate photosynthate, thus resulting in early maturity, short boll filling period, and low yield. As the LAI increases, the semi-okra and sub-okra hybrids showed certain heterosis. The semi-okra hybrid showed 7–12% heterosis over the check hybrid in lint percent, 6–11% in boll weight, 2–147% in canopy light intensity, 1–10% in net photosynthetic rate (Pn), and −3 to 3% in lint yield. As well, all tested okra leaf hybrids improved fiber quality such as micronaire compared with the normal leaf check hybrid. The results suggested that adopting okra leaf parental lines in cotton breeding provided potentials in increasing fiber quality with comparable lint yield.     

Heterosis performance of yield and fibre quality in F1 and F2 hybrids in upland cotton

Because of the difficulty of producing F₁ hybrid seeds by hand emasculation and pollination, wide use of heterosis in cotton production has been limited in China. The objective of this study was to evaluate the potential of F₂ hybrids for yield and fibre quality. A half diallel involving eight parents and their F₁ and F₂ hybrids was grown in replicated studies at Linqing and Nanjing in 1999 and Nanjing in 2000. Yield and fibre quality was determined for all 64 entries. Fibre quality was also determined for parents and F₁s, but only for Zhongmiansuo 28 (ZMS28), Xiangzamian 2 (XZM2) and Wanmian 13 (WM13) F₂s. These three F₂ hybrids are extensively planted in China and provide experimental controls with which to compare the performance of new hybrids. Average yield heterosis for F₁s and F₂s was 15.9 and 9.2%, respectively. Inbreeding depression for yield varied but some F₂s greatly out‐yielded the best variety. Average F₁ heterosis was 6.7, 6.2 and 2.9%, respectively for number of bolls per unit area, boll weight, and lint percentage. The average F₂ heterosis for the same traits was 4.4, 3.3 and 1.6%, respectively. F₁ heterosis for fibre traits was low. In general, parental average was a good indicator of the yield and fibre quality of F₁ hybrids. These encouraging results suggest there is sufficient heterosis for yield to use F₂s in China.     

Performance Studies in F6 Lines of Autotetraploid Fenugreek

Hybridization followed by pedigree selection was carried out between two autotetraploid strains of fenugreek (Trigonella foenum-graecum L.). Morphological and cytological investigations were carried out in two autotetraploid parents, their F₁ hybrids and F₆ lines derived from F₁ after selfing. Cytomorphological data of F₆ lines were compared with those of F₁, hybrids and of their parents. The hybrid plants were intermediate with respect to different vegetative traits, however, they showed increased seed set as compared to their autotetraploid parents. The mean pod number per plant in F₆ was one and half times as high as one of the high yielding tetraploid parents and approximately twice as high as that of F₁ hybrid. Meiosis in F₆ was more regular than in F, and the parents. Thus, hybridization followed by pedigree selection is helpful not only in regularizing the meiotic behavior, but vigour and seed fertility have also improved in autotetraploid fenugreek.     

Heterosis for yield and other agronomic traits of winter triticale F1 and F2 hybrids

Triticale is generally treated as a self‐pollinating crop and line breeding is practised. Hybrid breeding has been discussed for some time, but there is little information for winter triticale. This study investigated heterosis for eight agronomic traits in F₁ and F₂ hybrids grown together with their parents as drilled plots in three environments. On average, grain yield heterosis was 12.5 dt/ha (a relative 10.5%) compared with the mid‐parent value for F₁ hybrids, and 6.2 dt/ha (5.0%) for F₂ hybrids and withawide range of 4.4–17.1 dt/ha for F₁ hybrids. A positive contribution to the heterosis of yield was made by kernels/spike and 1000‐kernel weight, whereas spikes/m² showed negative heterosis. Hybrid plants in F₁ and F₂ were taller than mid‐parents (8.3 cm and 5.3 cm, respectively), with a tendency to earlier heading. The negative heterosis for falling number in F₁ and F₂ hybrids could be a problem for commercial production of triticale hybrids. By selecting parents for combining ability and the identification of heterotic patterns, grain yield heterosis of 20% appears feasible.     

陆地棉遗传距离与纤维品质性状中亲优势及F1、F2表现的相关性研究

通过29个陆地棉品种(系)表型性状及SSR标记遗传距离聚类分析,依据遗传距离大小在不同类群中选择了8个遗传背景差异不同的陆地棉亲本,进行不完全双列杂交,共配制了28个组合,开展了陆地棉纤维品质性状F1、F2表现及其中亲优势与遗传距离之间的相关、回归分析研究.结果发现杂种F1、F2纤维上半部平均长度、整齐度指数、断裂比强度及其中亲优势均与表型及SSR标记遗传距离正相关,其中杂种F1纤维上半部平均长度与2种遗传距离均达到了显著水平,断裂比强度与SSR标记遗传距离达显著水平;伸长率的杂种F1、F2表现及其中亲优势均与表型及SSR标记遗传距离负相关,其中杂种F1伸长率与SSR标记遗传距离显著负相关.回归分析发现与遗传距离达到显著或极显著相关的纤维品质性状,均与对应遗传距离具有显著或极显著拟合的曲线模型.这些显著或极显著的纤维品质性状,可在育种实践中为利用杂种优势改良棉纤维品质提供参考信息.     

Heterosis in CMS hybrids of cotton for photosynthetic and chlorophyll fluorescence parameters

Summary The characterization of photosynthetic, chlorophyll fluorescence parameters and yield and yield components was compared between two newly developed CMS cotton hybrids (H1, H2) and their parents, as well as currently planted hybrid and conventional cultivars (C1, artificially produced hybrid CCRI 29 and C2, conventional cultivar CCRI 12) under the field condition. The results showed that P_n, F_v/F_m, Φ_PSII and qP of hybrids was significantly higher than that of C1 and C2. Furthermore, heterosis was found on photosynthetic parameters in hybrids over their parents at the first four growth stages, while only heterosis over mean of parents (HOMP) was detected in chlorophyll fluorescence parameters. It was clearly shown that one male-sterile line M2 was higher than the hybrids in F_v/F_m, Φ_PSII and qP over all growth stages. Significantly positive correlations (P < 0.01) were found between LAI or Yield and P_n, C_s, T_r, F_v/F_m, Φ_PSII, or qP, while significantly negative correlations between C_i and LAI or Yield, and no significance between qN and Chl a, C_s and qP were found. It was concluded that CMS hybrid cottons showed better potential to maintain relatively higher photosynthetic ability during the growth, which contributes to the increased lint yield.     

Cytogenetic study of Helianthus laevigatus and its F1 and BC1F1 hybrids with cultivated sunflower, Helianthus annuus

Although the wild sunflower species Helianthus laevigatus has not been extensively studied it may be considered for sunflower breeding as a potential source of desirable genes for Sclerotinia stalk rot resistance and high contents of proteins and linoleic acid in the seed. A set of six H. laevigatus populations was crossed to cultivated sun~ower lines and produced nine F₁ (2-14 plants) and 66 BC₁F₁ hybrid combinations (1-13 plants). Male sterility occurred in F₁ and BC₁F₁ hybrid combinations and pollen viability was lower in the progenies than in the parents (51.6-77.2%in F₁ and in F₁ and 4.8-34.0% in BC₁F₁). Meiosis was normal in the H. laevigatus populations It was found that this tetraploid species also occurred in a hexaploid form Numerous irregularities were observed in the meiosis of the F₁ interspecific hybrids During diakinesis, quadrivalents and hexavalents were recorded in addition to bivalents Dislocated chromosomes and chromosome bridges were present in the other phases The chromosome number in F₁ was 68 (tetraploid). Irregularities in chromosome pairing were observed in the interspecific hybrids at BC₁F₁. There were many univalents, and trivalents quadrivalents and hexavalents were also present The chromosome number in the BC₁F₁ generation ranged from 34 to 60. The occurrence of meiotic irregularities in the F₁ and BC₁F₁ interspecific hybrids indicates that H. laevigatus and the cultivated sunflower differ in genome constitution.     

亲本未知的棉花F1杂种及其F2单株的SSR分子鉴定

在棉花品种区域试验中,杂交种纯度的分子检测一直是比较困难的课题,尤其是在亲本未知的情况下,杂交种的纯度的分子检测研究尚未见报导。本研究利用17对SSR核心引物对参试品种邯6402的F1进行纯度检测,SSR标记纯度达100%,17对引物中有12对呈现共显性,5对引物为非共显性。同时,构建了F1的SSR指纹图谱,以此可以鉴定邯6402的真实性。继续用这些引物对F2的44株棉苗进行检测,F2群体棉苗均有不同程度的分离,绝大部分基因型为杂合体,许多位点显示共显性,且共显性位点互不相同,在分子水平上验证了F2群体的杂合状态。应用这一套SSR核心引物,能够在室内鉴定棉花杂交种的真实性和纯度,还能够鉴别是F1杂交种还是F2分离群体,比对杂交种的指纹图谱能检测出F1中掺杂成分。     

Pollination, Fertilization and Seed Development in Inbred Lines and F1 Hybrids of Spring Faba Beans (Vicia faba L.)

When the flowers are not disturbed, the yield of F₁ hybrids of faba beans normally exceeds that in their inbred parents. The basis of this “heterotic autofertility” was investigated by examining flowers for pollination and fertilization throughout the flowering season and assessing the distribution of seeds and pods on mature plants. Six inbred lines and seven of their F₁ hybrids were grown without protection from bee visitation, and their autofertility was estimated’ by comparing their fertilization with that of cytoplasmic male-sterile line. The first direct evidence was obtained that heterotic autofertility acts by increasing; the proportion of flowers which were pollinated and fertilized. The autofertility was not perfect, especially in a closed-flower hybrid, as many ovules remained unfertilized. Several factors contributed to the number of seeds per pod in F₁ hybrids, being superior to parental means: (1) more ovules per flower, (2) greater fertilization of the basal ovules, (3) reduced abortion of the apical ovules and (4) greater overall maturation ovules.     

Heterosis in yield, endotoxin expression and some physiological parameters in Bt transgenic cotton

Although heterosis in cotton has been studied for many decades, very little is known about the performance of hybrids derived from Bt transgenic cotton parents. In order to known better the heterosis performance, yield and endotoxin expression in 20 hybrids (F₁) and their Bt transgenic parents were examined from 2002 to 2003 (Experiment 1), and the dynamics of source, sink and their ratios in a well‐performing hybrid H01 were investigated in 2004 and 2005 (Experiment 2). Results in Experiment 1 showed an average mid‐parent heterosis of 21.3% and an over check heterosis of 7.6% in lint yield. Considerable heterosis was also detected in boll numbers, boll size and Bt protein content. Of the 20 hybrids, H01 (K0215 × K643) exhibited the greatest heterosis in yield and Bt protein content in 2002 and 2003, while lint yields of H01 were increased 12.6% and 9.1% in 2004, and 11.7% and 8.9% in 2005, compared with K0215 and K643 in Experiment 2, respectively. Significant heterosis for dry matter accumulation and dry matter allocation to reproductive organs and ratio of fruiting forms/total plant (w/w) were also detected in H01. Sources (leaf area, leaf area index, leaf dry weight per plant and diurnal performance of photosynthesis), sinks (number of fruiting nodes, fruiting forms and dry weight of fruiting forms per plant) and the flow from source to sink were significantly enhanced in H01 relative to its parents. Both total N and Bt protein in H01 were higher than those in its parents. Significant correlation was also found between total N and Bt protein in the main‐stem leaves (R² = 0.877**). It is concluded that there existed considerable heterosis in yield, yield components and endotoxin expression in some Bt transgenic hybrids. Yield advantage of hybrid cotton (F₁) over parents can be attributed to improved source, sink and flow, while the enforced expression of Bt genes in hybrid cotton appeared to be due to the enhanced nitrogen level in plants.