濒危植物肉苁蓉（Cistanche deserticola）繁育系统研究

在自然居群中通过野外定位观测,运用杂交指数（OCI）;花粉—胚珠比（P/O）;去雄、套袋、人工授粉等方法对濒危植物肉苁蓉（Cistanche deserticola Ma）的花序发育、开花特性、花粉活力、柱头可授性、传粉方式、繁育系统进行了研究,结果表明：肉苁蓉穗状无限花序的生长发育期可明显分为拱土期、出土期、开花期、结实与种子成熟期四个阶段。两性花,单花开放时间2~3d,花序有花期持续20~25d。种群开花历时36~38d。开花时柱头略高出花药,柱头较大,下垂。重力玻片法检测,风媒导致的异株异花传粉完全可以忽略。主要访花昆虫为蜂类。扫描电镜观察虫体,蜂类携带大量花粉,但传粉飞行距离大部分为0。杂交指数为3;花粉—胚珠比为35.45±8.56;结合去雄、套袋和人工授粉试验结果,认为肉苁蓉属于以自交为主的繁育系统。     

新疆特有珍稀灌木银沙槐繁育系统研究

通过固定样地、样株的观测和室内、室外实验分析,运用杂交指数、花粉-胚珠比、花粉活力和柱头可授性观测、人工授粉和套袋实验等方法,对银沙槐自然种群的繁育系统进行了研究.结果表明：该种单花花期一般7~11 d,依据花的发育进程分为花蕾期、散粉前期、散粉期和萎蔫期4个阶段;花粉-胚珠为16243．35,杂交指数为4;结合人工授粉及结实结籽率结果,综合考虑银沙槐繁育系统属于异交型,部分自交亲和,没有无融合生殖现象存在,需要传粉者.银沙槐繁育系统以异交为主,存在与自交相适应的结构和行为.     

濒危植物长柄双花木的花部综合特征与繁育系统

 通过野外观察,运用杂交指数、花粉-胚珠比、人工授粉和套袋实验及等位酶电泳等方法,对长柄双花木(Disanthus cercidifolius Maxim. var. longipes H. T. Chang)自然种群和人工种群的开花状态、繁育系统进行了研究。结果如下：该种单花花期一般6～7 d,开花过程中柱头始终高于花药的位置,花药散粉具有先后顺序,一般2花药先散粉,其余3花药滞后1～2 d。单花花期依其形态和散粉时间可分为5个时期：即散粉前期、散粉初期、散粉盛期、凋谢期。种群开花一般历时49～55 d,但不同地点、年份之间有所差异,推测开花持续时间不同主要是环境条件所致。由于其杂交指数大于4,花粉-胚珠比等于1 250,结合人工套袋和授粉实验以及等位酶电泳结果可以确定该种的繁育系统属于异交为主,部分自交亲和,传粉过程需要传粉者。花粉竞争可能是导致该种濒危的主要的生殖生物学原因。     

濒危植物凹叶厚朴的花部综合特征和繁育系统

为了解凹叶厚朴(Magnolia officinalis subsp.biloba)濒危的生殖生物学原因,通过野外观测,运用杂交指数、花粉-胚珠比、花粉活力和柱头可授性观测、人工授粉和套袋实验等方法,对凹叶厚朴种群的开花生物学、繁育系统进行了研究。结果表明:凹叶厚朴单花花期一般为4～5d,单花花期根据形态和散粉时间可分为4个时期:蕾期、初开期、盛开期和凋零期;种群于4—5月开花,一般开花历时30d左右,但不同地点、年份间有所差异;种群无开花高峰,单株平均开花数量为171.4～188.8朵,平均开花振幅为5～6朵·株-1·d-1;凹叶厚朴杂交指数为4,花粉胚珠比为5728.86,结合人工套袋和授粉实验结果可确定,繁育系统为异交,传粉过程需要传粉者;花粉活力较高(94%),且花粉活力可维持至散粉后的第6天。散粉后,柱头可授性显著下降,花粉高活力期与柱头可授期有5～6h的重叠;自然状况下结果率和单果出种百分率低,异株异花授粉可明显提高结果率和单果出种百分率,二者相对自然状况分别提高14.25%和43.66%。表明自然状态下传粉效率低、柱头最佳可授期短、同株自花授粉败育严重是其濒危的主要生殖生物学原因。     

枸杞新品系NQ-2开花生物学研究

为探讨枸杞新品系NQ-2纯系种植结实率低的原因,采用TTC法、联苯胺—过氧化氢法、花粉—胚珠比、杂交指数和套袋试验等方法,对NQ-2花粉活力、柱头可授性及繁育系统等进行了研究。结果表明:NQ-2单花花期为3~4 d,花后8 h散粉结束,开花当天花粉活力最高,花粉寿命可持续9 d以上;开花前一天柱头已具可授性,开花第1天柱头可授性最强,开花第3天柱头基本失去可授性;枸杞新品系NQ-2平均花粉-胚珠比8615,OC I=4,结合人工授粉实验结果确定其繁育系统为专性异交。自交不亲和是导致NQ-2纯系种植落花落果结实率低的主要原因。     

紫荣莉的花部综合特征与繁育系统

采用定株观察,运用花粉-胚珠比、联苯胺-过氧化氢法、杂交指数和套袋实验等方法,对紫茉莉（Mirabilis jalapa L．）的开花状态及繁育系统进行了研究。结果表明：种群花期一般为6—10月,单花花期一般为2—3d;单花花期依其形态和散粉时间可分为散粉前期、散粉初期、散粉盛期、花闭合期、凋谢期5个时期;在花闭合时期,晴天有66．80％的花的柱头在闭合花冠内,阴天时有81．65％的花的柱头在闭合花冠内,雨天柱头在闭合花冠内的花可达99．22％;按照杂交指数,其繁育系统属于自交亲和,有时需要传粉者;P／O值约为269,判断繁育系统类型属于兼性自交;开花6h左右,柱头的可授性最强,此时花粉活力、置落在柱头上的花粉数及其在柱头上的萌发率都达到最高。套袋实验显示,紫茉莉自然条件下没有无融合现象,繁育系统为自交、异交亲和,以自交为主,但有时也需要传粉者;在长期的环境选择压力下,紫荣莉选择将更多的柱头留在闭合花冠内,是其对不利环境条件的一种适应进化策略。     

紫茉莉的花部综合特征与繁育系统

采用定株观察,运用花粉-胚珠比、联苯胺-过氧化氢法、杂交指数和套袋实验等方法,对紫茉莉(Mirabilis jalapa L.)的开花状态及繁育系统进行了研究.结果表明:种群花期一般为6-10月,单花花期一般为2～3 d;单花花期依其形态和散粉时间可分为散粉前期、散粉初期、散粉盛期、花闭合期、凋谢期5个时期;在花闭合时期,晴天有66.80%的花的柱头在闭合花冠内,阴天时有81.65%的花的柱头在闭合花冠内,雨天柱头在闭合花冠内的花可达99.22%;按照杂交指数,其繁育系统属于自交亲和,有时需要传粉者;P/O值约为269,判断繁育系统类型属于兼性自交;开花6 h左右,柱头的可授性最强,此时花粉活力、置落在柱头上的花粉数及其在柱头上的萌发率都达到最高.套袋实验显示,紫茉莉自然条件下没有无融合现象,繁育系统为自交、异交亲和,以自交为主,但有时也需要传粉者;在长期的环境选择压力下,紫茉莉选择将更多的柱头留在闭合花冠内,是其对不利环境条件的一种适应进化策略.     

短葶飞蓬（Erigeron breviscapus）的花部综合特征与繁育系统

通过野外观察,运用杂交指数、花粉-胚珠比、套袋实验等方法,对短葶飞蓬自然种群的开花状态及繁育系统进行研究。结果如下：短葶飞蓬具头状花序,由外围舌状花及中央的管状花构成。种群花期一般为4~7月份,一个花序的花期约为19~25d。管状花单花花期一般为7~10d,聚药雄蕊,先熟,药室内向开裂,成熟的花粉散于花药筒中。花开后花柱快速伸长,导致雄蕊伸出花冠,同时将药筒中的花粉粒“推”出药筒,形成花冠、药筒、柱头三者在空间上的分离。花序中不断有小花开放,同一花序内的小花间具相互传粉的机会。杂交指数≥4,判断繁育类型属于异交,部分自亲和,需要传粉者。P/O值约为1373,判断繁育类型属于兼性异交。套袋实验证明短葶飞蓬异花授粉,虫媒,蜂、蝶为主要传粉者。在自然状况下,短葶飞蓬结实率较低的原因可能是花粉竞争。此外,短葶飞蓬存在天然雄性不育植株,为遗传育种提供了材料。     

濒危植物缙云卫矛繁育系统研究

运用花粉萌发、联苯胺-过氧化氢法、花粉—胚珠比、杂交指数和套袋实验等方法,对缙云卫矛(Eu-onymuschloranthoidesYang)花粉活力、柱头可授性及繁育系统进行了研究。结果表明缙云卫矛花粉-胚珠比为764~1340,杂交指数等于3,结合人工授粉和套袋实验结果可以确定该物种的繁育系统属于自交亲和,有时需要传粉者。根据套袋实验及实地观察可以推测该物种以风媒传粉为主。其花粉活力较高,持续时间较长,花粉质量可能不是导致该物种濒危的主要原因。其雌雄性功能表达具一定的重叠期,提高了同株异花授粉的几率,雌雄性功能表达在时间上的差异不是影响其结实率的主要原因。气候条件对传粉过程的限制可能是导致该物种濒危的原因之一。     

稀有植物小丛红景天花部综合特征与繁育系统

对稀有物种生物学特征及繁育系统的研究将有利于我们对稀有物种的保育。该文通过野外定位观测稀有植物小丛红景天(Rhodiola dumulosa)的花部综合特征,并运用杂交指数、花粉-胚珠比的方法首次对其繁育系统进行初步测定。结果表明:该物种单花花期一般为5~6 d,开花过程中花柱逐渐伸长并向外弯曲,子房开裂并逐渐伸长,花药散粉具有先后顺序,一般外轮对萼花药先散粉,其后1 d左右对瓣花药开始散粉。单花花期依照其形态和散粉时间可分为6个阶段:花蕾期、内轮散粉期、内轮散粉末期、外轮散粉期、外轮散粉末期和凋谢期。而种群花期一般可持续30 d以上,不同海拔观测地点有所不同,海拔2 202 m处的观测地点B开花物候最为滞后。由于其杂交指数不小于4,花粉-胚珠比在700~1 000之间, 根据Dafni(1992)和Cruden(1977)的标准,初步判定该物种的繁育系统属于异交为主,部分自交亲和,传粉过程需要传粉者。     

Interspecific pollen transfer between two coflowering species was minimized by bumblebee fidelity and differential pollen placement on the bumblebee body

Aims When sympatric flowering plant species in a natural community share pollinators, study of plant–plant interactions via interspecific pollen transfer (IPT) is essential for understanding species coexistence. However, little is known about the extent of IPT between interactive species and its causes.Methods To explore how sympatric flowering plants sharing pollinators minimize deleterious effects of IPT, we investigated the pollination ecology of two endemic species, Salvia przewalskii and Delphinium yuanum, in an alpine meadow in the Hengduan Mountains, southwest China. We quantified conspecific and interspecific visits by shared bumblebee pollinators, amounts of pollen placed on different body sites of the pollinators and stigmatic pollen loads on open-pollinated flowers. To examine whether IPT affects female fitness, we measured pollen germination and seed production in the two species in an artificial pollination experiment.Important findings One bumblebee species, Bombus trifasciatus, was found to be the sole effective pollinator for the two coflowering species. Pollination experiments indicated that deposition of heterospecific pollen could significantly decrease seed set in both species. Experiments showed that S. przewalskii pollen could germinate well on stigmas of D. yuanum, inhibiting conspecific pollen germination in D. yuanum. However, seed set was not lower under open pollination than under cross-pollination within species, suggesting that no female fitness loss was caused by IPT. In foraging bouts with pollinator switches, switches from S. przewalskii to D. yuanum were relatively more frequent (8.27%) than the converse (1.72%). However, IPT from S. przewalskii to D. yuanum accounted for only 1.82% of total stigmatic pollen loads while the reverse IPT to S. przewalskii was 8.70%, indicating that more switches of bumblebees to D. yuanum did not result in higher IPT. By contrast, selection for reduced IPT to S. przewalskii would limit pollinator switches from D. yuanum. We found that a bumblebee generally carried pollen grains from both species but the two species differed in the position of pollen placement on the bumblebee's body; S. przewalskii ' s pollen was concentrated on the dorsal thorax while D. yuanum ' s pollen was concentrated ventrally on the head. This differential pollen placement along with pollinator fidelity largely reduced IPT between the two species with a shared pollinator.     

雄全异株植物瘿椒树（省沽油科）的传粉生物学

从开花动态、传粉昆虫、花的形态结构、繁育系统、花粉活力和柱头可授性等方面研究了我国特有珍稀植物瘿椒树（Tapiscia sinensis Oliv.）的传粉生物学特性。瘿椒树是典型的雄全异株植物,两性花中含有功能性花粉,且自交亲和,但雄花花粉活力和萌发力是两性花的10倍以上。雄株和两性植株具有相同开花物候期,花期均为5月下旬至6月上旬,单花期为4-5天,雄花和两性花的5枚花药开裂的不同步性明显延长了散粉时间。两性花雌蕊先熟,柱头可授性较长。具有适应风媒和虫媒传粉的花部特征。传粉昆虫主要为蜜蜂科（Apidae）和食蚜蝇科（Syrphidae）昆虫,访花高峰期为8：30-10：30。维持瘿椒树雄全异株的可能机制是：雄株总体上增加了异交花粉的数量和质量;两性花的雄蕊为该物种提供了繁殖保障,同时为传粉者提供了报酬。     

雄全异株植物瘿椒树(省沽油科)的传粉生物学

从开花动态、传粉昆虫、花的形态结构、繁育系统、花粉活力和柱头可授性等方面研究了我国特有珍稀植物瘿椒树(Tapiscia sinensis Oliv.)的传粉生物学特性。瘿椒树是典型的雄全异株植物,两性花中含有功能性花粉,且自交亲和,但雄花花粉活力和萌发力是两性花的10倍以上。雄株和两性植株具有相同开花物候期,花期均为5月下旬至6月上旬,单花期为4-5天,雄花和两性花的5枚花药开裂的不同步性明显延长了散粉时间。两性花雌蕊先熟,柱头可授性较长。具有适应风媒和虫媒传粉的花部特征。传粉昆虫主要为蜜蜂科(Apidae)和食蚜蝇科(Syrphidae)昆虫,访花高峰期为8:30-10:30。维持瘿椒树雄全异株的可能机制是:雄株总体上增加了异交花粉的数量和质量;两性花的雄蕊为该物种提供了繁殖保障,同时为传粉者提供了报酬。     

长萼兰花蕉(Orchidantha chinensis var.longisepala)的繁育系统研究

通过野外观察并采用杂交指数（OCI）测定、花粉/胚珠比（P/O）检测、人工控制授粉等方法,对长萼兰花蕉（Orchidantha chinensis var.longisepala（D.Fang） T.L.Wu）种群的繁育系统进行了研究,采用常规石蜡切片与扫描电子显微镜（SEM）观察了柱头与"V"形黏盘的结构与形态。结果表明,长萼兰花蕉单花花期一般为18 d,依其花部形态的变化可分为蕾期、花萼未反转期、花萼反转期、唇瓣枯萎期、花萼枯萎期5个时期;根据杂交指数值为4、P/O值为253.89 ±21.09、人工异花授粉结实率分别为45%（2014年）和75%（2015年）,显示出长萼兰花蕉的繁育系统属于异交,且需要传粉者。石蜡切片观察到长萼兰花蕉黏盘区与柱头可授区之间是光滑的表皮细胞,结合人工授粉实验与分泌物含糖量测定结果表明,长萼兰花蕉的"V"形黏盘不具有可授性,其作用可能是分泌黏液附着在传粉者背部使其便于携带花粉。长萼兰花蕉整个花期环境湿冷、多雨且开花同步性较低,这些因素很可能造成其有效传粉媒介缺乏,影响了传粉成功;另一方面,长萼兰花蕉有性繁殖受到限制,其主要通过根状茎进行无性繁殖后代,所以分布范围比较狭窄。     

Genetic parameters for agronomic characteristics. II. Intermediate and advanced stages in a true potato seed breeding population

The aim of this research was to determine the genetic variation available in some important characteristics for true potato seed breeding in intermediate and advanced stages of a breeding population developed by the Centro Internacional de la Papa. A factorial mating design was used to calculate variance components and heritability at both selection stages. Four males were crossed with four females within each set (4 for intermediate stage and 5 for advanced stage) and their resulting offspring tested across two contrasting locations. Tuber yield and set were the only common characteristics recorded in both selection stages. In the intermediate stage early development characteristics (seed germination plus root and internode length) were also measured. In the advanced breeding material, vine earliness and other reproductive traits (days to flowering, flowering intensity, style length and pollen production) were scored. The heritability for tuber yield (0.35) and tuber set (0.32) in the advanced selection stage was higher than in the intermediate stage (0.26 and 0.13 respectively), which suggest that recombination through more cycles of recurrent selection brought untapped variation for both characteristics in this breeding material. Significant additive genetic variation, and thereby high heritability, was observed for internode length (0.52) in the intermediate selection stage, and for days to flowering (0.53) in the advance stage. Progress through selection may be expected for both characteristics. The heritability for pollen production was intermediate (0.23), while it was low (i.e.< 0.10) for the other characteristics recorded in both populations.     

珍稀濒危植物距瓣尾囊草(Urophysa rochkii)的开花物候和繁育系统特性

通过野外观察,运用套袋授粉和联苯胺-过氧化氢法等实验方法对距瓣尾囊草开花物候以及种群的繁育系统特性进行研究。研究结果:1)距瓣尾囊草为两性花,聚伞状花序,花期较长,从头年12月持续到次年4月,单花花期持续8—15 d,种群花期可持续4个月左右。2)距瓣尾囊草在花朵未开放前花粉没有活力,花药开裂当天花粉活力达到94.8%,第2天为90.3%,第3天为81.6%,第4天为62.9%,此后其花粉活力明显减弱;柱头可授性于散粉后第3天开始出现,散粉后4—5天最强,散粉后第8天柱头失去可授性;柱头可授性和花粉活力有5 d左右的重叠期。3)其花粉胚珠比P/O为938.5±250,按照Cruden标准划分,其有性繁育系统为兼性异交。4)按照Dafni的标准,距瓣尾囊草的OCI=4,即繁育系统为异交、部分自交亲和、需要传粉者。5)人工异花授粉结实率达80%以上,略高于自然结实率78.94%;直接套袋结实率为5.71%;去雄套袋和去雌套袋均不结实。以上结果表明,距瓣尾囊草繁育系统表现为异交为主、部分自交亲和并且不存在无融合生殖现象,其开花物候、花部特征和繁育系统为适应特殊的环境提供了一定的生殖保障,本次研究结果为距瓣尾囊草的迁地保护和种群的繁衍复壮提供理论依据。     

珍稀濒危植物细果秤锤树开花生物学特性和繁育系统

为了解珍稀濒危植物细果秤锤树（Sinojackia microcarpa）开花特征和有性繁殖,对其花部形态特征、开花动态、花粉胚珠比（P/O）、柱头可授性、花粉活力、套袋试验、访花昆虫及访花频率进行观测。结果表明：（1）细果秤锤树的杂交指数（OCI）为4,单花期5~7 d,种群花期可持续20 d左右。花粉与胚珠比为4 093.21±498.56。开花后第3天的花粉活力最高（76.21%）,而开花后第7天时花粉活力较低（18.37%）。细果秤锤树柱头最适可授期在开花后第2天。（2）套袋试验表明,细果秤锤树存在部分自交不亲和性,同时不存在无融合生殖,传粉昆虫是其完成生殖过程所必需的,且异株授粉能够提高其坐果率和结籽率。细果秤锤树的访花昆虫有3目5科7种,主要访花昆虫有黄胸木蜂（Xylocopa appendiculata）、熊蜂（Bombus sp.）、胡蜂（Vespa sp.）、中华蜜蜂（Apis cerana）、黑带食蚜蝇（Episyrphus balteatus）、其中熊蜂平均访花频率最高,达（8.67±0.21） 次·h^-1。对该物种开花生物学特征与繁育系统进行深入研究,有利于进一步探究其濒危机制,为后续珍稀濒危植物的研究提供理论依据和参考。     

黄河三角洲柽柳的开花特性及传粉生态学研究

野外定位观测了柽柳(TamarixchinensisLour.)的开花物侯、开花动态、访花者的种类、行为和访花频率,并对其繁育系统、花粉-胚珠比(P/O)、花粉活力进行了检测。结果表明,柽柳单朵花的花期仅1d,P/O为390.9±81.0,繁育系统属于自交亲和、需要传粉者的类型。花的结构和开花式样适合以食蚜蝇为主的多种昆虫传粉。自然条件下的结实率为95.23%。柽柳的果实成熟期较短(15d),整个居群有长达几个月的花期,开花数目众多,因此能产生大量的种子,在适宜条件下会形成大片的柽柳灌丛。     

Temporal variation in pollen dispersal and breeding structure in a bee-pollinated Neotropical tree

Variation among flowering seasons in the time of flowering, synchrony and length of flowering, and fluctuations in the abundance of pollinators may cause a variation in pollen dispersal distance. In this study, we analyzed the temporal variation in pollen dispersal and breeding structure in the Neotropical tree species Tabebuia aurea (Bignoniaceae) and evaluated pollen dispersal between a population inside the reserve and a patch of isolated individuals on the edge of the reserve, and tested the hypothesis that isolated individuals are sinking for pollen. All adult trees (260) within a population of 40 ha and 9 isolated individuals on the edge of the reserve were sampled, and from these adults, 21 open-pollinated progeny arrays were analyzed in 2 flowering seasons (309 seeds in 2004 and 328 in 2005). Genetic analyses were based on the polymorphism at 10 microsatellite loci. A high proportion of self-pollination found in both flowering seasons indicated a mixed-mating system. The mean pollen dispersal distance differed significantly between the two flowering seasons (307.78 m in 2004 and 396.26 m in 2005). Maximum pollen dispersal was 2608 m, but most pollination events (65%) occurred at distances <300 m. Our results also showed that isolated individuals are sinking for pollen, with high pollen flow between the population inside the reserve and individuals on the edge. These results are most likely due to the large pollinator species, which can potentially fly long distances, and also due to temporal variation in individual fecundity and contribution to pollen dispersal.