濒危植物柄扁桃的传粉者及其访花行为

对濒危植物柄扁桃(Amygdalus pedunculata)访花昆虫的种类、访花行为、访花频率和日活动规律进行了研究.结果表明:柄扁桃的访花昆虫有5目17科19属21种,其中传粉昆虫为3目11科13属15种,主要的传粉昆虫为黑颚条蜂(Anthophora melanognatha)、密林熊蜂(Bombus patagiatus)、大蜂虻(Bombylius major)、黄腿食蚜蝇(Syrphus ribesii)及红足隧蜂(Halictus rubicundus);主要传粉昆虫的日活动规律差异较大,活动高峰期彼此交错;黑颚条蜂具有体积大、携粉量大、小花停留时间短等特点,为柄扁桃传粉的效率最高,今后应加强其生物学、传粉生态学方面的研究.     

紫花苜蓿的传粉昆虫种类及其访花行为

紫花苜蓿(Medicago sativa)属典型的异花授粉植物,其种子生产主要依靠蜜蜂等传粉昆虫.本文对河西地区张掖实验站紫花苜蓿传粉昆虫种类及其访花行为进行了调查.结果表明:苜蓿访花昆虫共计22种,分别属于4个目,11个科,根据弹花效率初步确定鳞地蜂、黑颚条蜂、净切叶蜂、细切叶蜂和紫木蜂为河西地区主要传粉昆虫;主要传粉昆虫的日活动规律出现单峰型和双峰型2种,净切叶蜂、细切叶蜂和紫木蜂属于前者,只在11:30-15:30出现一个活动高峰,而鳞地蜂与黑颚条蜂则为双峰型,在9:30-11:30和16:30-18:30分别出现访花高峰,不同的传粉昆虫之间存在互补关系;主要传粉昆虫的弹花频率和小花停留时间存在显著差异,且访花行为与野生蜂体型紧密相关.     

栽培细叶百合的传粉生态

对栽培的细叶百合进行传粉生态学的初步观察结果显示：细叶百合2:30～3:00开始开花,5:30～7:00完全开放;单花开放时间3～4 d,群体花期为12 d。花蜜分泌在开花当日,分泌高峰在9:00～11:00,花蜜分泌与昆虫访花谐调一致。花蜜成分主要为葡萄糖、阿拉伯糖和β－D吡喃果糖,花朵挥发物的成分是软脂酸、软脂酸甲酯、肉豆蔻酸、月桂酸、3－叔戊基戊酮、十三烷和1－甲基,2异丙烯基环丁基乙醇。访花昆虫主要是蝶类、蜂类和蝇类;传粉昆虫为绿豹蛱蝶、大红蛱蝶、绢粉蝶及单齿切叶蜂、小齿淡脉隧蜂,其中小齿淡脉隧蜂的传粉活动最为活跃。晴天时小齿淡脉隧蜂访花频率的日变化与光照的日变化呈极显著的正相关,与温度的日变化呈显著的正相关,与湿度的日变化呈显著的负相关;阴天时与空气温度相关极显著,与空气湿度相关显著。细叶百合以异花虫媒传粉为主,部分自交可育。     

塔落岩黄芪主要传粉蜂的传粉效率研究

塔落岩黄芪(Hedysarum laeve)是毛乌素沙地重要豆科植物,在我国西部生态系统恢复与重建中起着重要作用,但其自交率非常低,必须依靠传粉昆虫授粉才能结实。野生传粉蜂是其主要传粉者。为了明确塔落岩黄芪的主要传粉蜂组成及优势传粉蜂的传粉效率,2004-2006年,我们设置了4个2m×2m样方观测访花昆虫的组成并对主要传粉蜂的访花频率、花粉移出率和柱头花粉沉降数目及单花停留时间进行了观测。结果表明白脸条蜂(Anthophora albifronella)、海切叶蜂(Megachile maritima)和散熊蜂(Bombus sporsdicus)是塔落岩黄芪的主要传粉蜂,其中白脸条蜂在数量和访花频率上占有明显优势,但其花粉移出率比海切叶蜂和散熊蜂的低,3种蜂的柱头花粉沉降数目没有显著区别。通过对这3种蜂的花粉移出率、柱头花粉沉降数目和访花频率综合分析后,我们认为白脸条蜂是塔落岩黄芪最有效的传粉蜂。     

毛菍传粉生物学研究

为探讨毛菍(Melastoma sanguineum Sims.)传粉生物学特性,对海南霸王岭国家级自然保护区林缘、林内和林隙3个生境内毛菍的花期、花部形态、访花昆虫等进行观察,同时对其繁育系统相关指标进行了测定。结果表明：毛菍无花蜜分泌;花瓣对访花昆虫有吸引作用;访花昆虫主要有蜂类、食蚜蝇类和丽金龟类;主要传粉昆虫有木蜂、熊蜂,其中木蜂传粉活动最为活跃,为最有效传粉昆虫。毛菍具典型的异型雄蕊,长、短雄蕊在传粉过程中具有明确的功能分化,推测这是毛菍保证传粉成功的策略。毛菍为自交亲和的异交种,需要昆虫传粉;人工自交和异交均具有较高的坐果率;不存在无融合生殖、主动自花授粉和滞后自交的生殖保障现象;其繁育系统是兼性自交。昼夜温差较小和相对湿度较高的林内和林隙生境有利于延长群体花期;光照充足、温度相对较高的林缘生境,花朵发育较快,柱头可授性的时间稍早。花粉、传粉者和环境条件是制约毛菍野外传粉效率的主要因素。     

芍药的访花昆虫和传粉昆虫

20 0 0～ 2 0 0 2年对内蒙古赤峰市高格斯台罕乌拉自然保护区内野生芍药 (PaeonialactifloraPall.)和内蒙古农校芍药园内栽培品种芍药的访花昆虫进行调查 ,经整理鉴定有 2 9种 ,自然保护区内芍药的访花昆虫种类有 1 7种 ,芍药园内的访花昆虫有 1 7种。根据传粉行为和数量的比较确定了自然保护区内主要传粉昆虫为丽斑芫菁、黄胫宽花天牛、黑胫宽花天牛、短毛斑金龟、饥星花金龟、白星花金龟和大淡脉隧蜂 ;芍药园内的主要传粉昆虫为意大利蜜蜂、棕边管食蚜蝇、长尾管食蚜蝇、大淡脉隧蜂、灰带管食蚜蝇和小淡脉隧蜂。     

白花野牡丹的开花进程、花部形态特征及访花昆虫观察

为了解白花野牡丹( Melastoma candidum f. albiflorum J. C. Ou)的开花进程、花部形态特征及访花昆虫的种类和访花行为,分别于2011年和2012年对栽培于深圳市中国科学院仙湖植物园的白花野牡丹花期进行观察和统计分析。结果表明：白花野牡丹的单花花期约12 h,7：00雌蕊柱头从即将开放的花蕾中伸出、8：00左右花朵半开放、8：30左右花瓣完全展开、16：00左右花瓣开始闭合、19：00左右花瓣完全闭合,翌日花瓣不再开放并逐渐萎蔫,至第4天花部完全脱落。白花野牡丹的花序为近头状的伞房花序,每个花序有3~8朵花;雌蕊1枚;雄蕊2轮(5+5,6+6),内轮雄蕊较短、而外轮雄蕊较长;不分泌花蜜。白花野牡丹花期的访花昆虫有2目5科13种,其中传粉昆虫有2科6种,包括领木蜂( Xylocopa collaris Lepeletier)、东亚无垫蜂〔Amegilla ( Zonamegilla) parhypate Lieftinck〕、蓝彩带蜂(Nomia chalybeata Smith)、彩带蜂(Nomia sp.)、中华蜜蜂(Apis cerana cerana Fabricius)和绿芦蜂(Pithitis smaragdula Smith)。这6种传粉昆虫的访花行为、访花规律及传粉效率各异,其中,领木蜂、东亚无垫蜂、中华蜜蜂和绿芦蜂的日活动规律为单峰型,访花高峰期均在10：00或11：00;而蓝彩带蜂和彩带蜂的日活动规律为双峰型,2个访花高峰期分别在10：00和15：00。花瓣开始松动时,小体型的中华蜜蜂和绿芦蜂开始传粉;随着花瓣继续开放,中等体型的蓝彩带蜂和彩带蜂成为主要传粉者;花瓣完全开放后,大体型的领木蜂和东亚无垫蜂成为主要传粉者。研究结果显示：白花野牡丹花粉是传粉昆虫的惟一报酬;各传粉昆虫的访花行为与白花野牡丹的开花进程密切相关,因此,可以有效保证白花野牡丹的繁殖。     

中国特有种——沙芥繁育系统和传粉生物学研究

运用定位观察、杂交指数、花粉-胚珠比、套袋试验和重力玻片法等方法,对沙芥自然居群和人工栽培种群的开花日动态、繁育系统和传粉习性进行了研究.结果显示:沙芥在自然居群和人工栽培种群开花日高峰分别在19:00和15:00～18:00.沙芥繁育系统为异花授粉植物.沙芥传粉媒介中风的飘移能力非常微弱;沙芥自然居群的访花昆虫有19种,分属于6个目;人工栽培种群的访花昆虫有11种,分属于6个目.意大利蜜蜂、熊蜂、黑带食蚜蝇和拟蜂食蚜蝇是两个居群共有的主要传粉昆虫,在自然居群熊蜂每天的访花频率呈双峰曲线,其中访花最高峰与开花日高峰基本重叠.     

蒙古扁桃的开花生物学研究

对分布于宁夏的蒙古扁桃居群进行开花动态、繁育系统、花粉与柱头活性、生殖器官解剖结构与花粉管的生长观察以及人工授粉实验,分析其传粉生物学特性,以探讨影响蒙古扁桃结实率低下的原因.结果显示:蒙古扁桃为专性异交植物;花具有花柱多型性现象,同一个体中存在长花柱花、中花柱花、短花柱花3种花柱型花,在不同个体中三型花所占比例不同且差异显著;短花柱花不可育,中花柱花与长花柱花为可育花.研究表明,大量不育花的存在、早春稀少的传粉昆虫以及荒漠地区恶劣的气候环境和破碎化的生境是导致蒙古扁桃结实率低下的主要因素.     

两种生境下野慈姑繁殖差异及其机制

植物的生长环境不但可直接作用于其可利用资源的多寡及其繁殖分配,而且可通过影响植物所在的群落以及传粉者的组成或行为而间接的导致繁殖差异。然而,直接与间接作用的方向或强度很少被同时关注,从而限制了从机制上理解环境对植物繁殖的影响。选取野慈姑(Sagittaria trifolia L.)为研究材料,将相同基因型组成的植株分别种植在光照差异明显的两个同质园(林荫区与日照区),于盛花期对野慈姑的开花数量、昆虫访花进行了观察,确定其主要访花昆虫、记录访花行为以及野慈姑的繁殖产出水平。研究表明,日照区野慈姑每天开放的花朵和植株数量显著高于林荫区。两个区域内野慈姑的主要访花者有四大类:蚜蝇类、蜂类、蝶类和蝇类;其中林荫区的主要传粉昆虫为蚜蝇类,而日照区为蜂类。日照区昆虫单位时间内的访花频率、昆虫每回合访问的雄花数、总花数和花序数均显著高于林荫区。日照区野慈姑的座果率显著高于林荫区,而单果种子数量与种子面积与林荫区相当。总体而言,日照区野慈姑的繁殖产出达到了林荫区的三倍以上,这是环境的直接作用与环境介导的传粉作用在同一方向上叠加的结果,且前者占主导地位。在关注植物、物理环境和生物因子三者之间互作的前提下,量化每个繁殖阶段的水平,特别是传粉昆虫在不同生境下的表现,阐述了环境异质性导致植物繁殖差异的根本原因。     

四合木繁殖特性的研究

对四合木（Ｔｅｔｒａｅｎａ ｍｏｎｇｏｌｉｃａ Ｍａｘｉｍ）的系列特性做了综合研究。结果表明,四合具有有性和无性生殖２种形式的繁育系统,以有性生殖占主导地位。该种成熟的花粉及柱头表面均较平滑,开花时花柱伸和苴柱头稍有膨大,但估不发达。子 在部具花盘。子房壁和花盘执行蜜腺功能。开花前,密腺开始发育,花后密腺成熟并有分泌行为。套袋实验发现,四合木传粉方式以异花传粉为主,传粉结束后统计,异花传粉结实率为     

Breeding system of the subantarctic plant species Pringlea antiscorbutica R. Br. and search for potential insect pollinators in the Kerguelen Islands

The reproductive biology of Pringlea antiscorbutica R. Br. (Brassicaceae), an endemic species from the southern Indian Ocean islands, is investigated here. Controlled crosses were performed between plants grown in a common garden on the Kerguelen Islands. Searching for potential insect pollinators, we investigated the flying ability of all insects known from the Kerguelen Islands. We showed evidence for self-compatibility, low pollen limitation in the absence of a biotic pollen vector and slight selfing depression in P. antiscorbutica. The insects present on the islands are mostly wingless and are not likely to be efficient pollinators of this species. Since P. antiscorbutica shows morphological adaptations to insect pollination despite the absence of pollinators in its present range, we conclude that this species recently evolved from insect pollination to wind and/or autonomous pollination.     

双翅目昆虫传粉研究进展

昆虫传粉不仅在自然生态系统中发挥着十分重要的作用,也和农业生态系统中产量密切相关。众所周知,膜翅目昆虫是最重要的传粉昆虫。双翅目昆虫分布广,物种多,数量大,也是一类十分重要的传粉昆虫,但其传粉作用未受到足够的重视。本文主要综述了双翅目传粉昆虫的主要种类、传粉效力、传粉特征、与植物的协同进化以及双翅目昆虫传粉的生态学意义。据记载双翅目昆虫中至少有71个科涉及虫媒种类,目前有资料显示访花昆虫类群中双翅目约有54 417种,按涉及的种数排序居于昆虫纲传粉昆虫目中第4位。尽管双翅目昆虫单次访问可携带花粉量相对较少(相比于膜翅目),但是较高访问速率及庞大的个体数量,保证了其作为有效传粉者的地位。传粉综合征能够有效揭示植物与传粉者的协同进化关系,尤其是对一些专化传粉现象(如五味子科-瘿蚊系统)和泛化传粉的深入研究,更加深了我们对协同进化的理解。就生态学意义而言,一方面双翅目传粉昆虫是膜翅目传粉昆虫的有益补充,另一方面在一些特殊环境中,双翅目昆虫具有不可替代的作用。当前传粉昆虫(包括双翅目)数量急剧下降,而且双翅目昆虫的传粉价值还利用较少。结合我国当前的研究现状提出了以下未来研究重点:1)加深双翅目传粉效力和适应意义的案例研究以明确双翅目昆虫在传粉体系中的地位;2)加强栖息地格局变化与昆虫多样性的研究以明确栖息地改变对昆虫的影响程度;3)梳理访花和传粉、专化传粉和泛化传粉等关系以更加明确双翅目昆虫在与植物协同进化中的作用;4)逐步深入探讨花粉浪费和花粉竞争以探究传粉策略和植物繁殖策略。这些努力将为双翅目传粉昆虫的知识普及、资源保护与利用研究等方面提供参考。     

The role of insect pollinators in avocado production: A global review

Insect pollination increases the yield and quality of many crops and therefore, understanding the role of insect pollinators in crop production is necessary to sustainably increase yields. Avocado Persea americana benefits from insect pollination, however, a better understanding of the role of pollinators and their contribution to the production of this globally important crop is needed. In this study, we carried out a systematic literature review and meta-analysis of studies investigating the pollination ecology of avocado to answer the following questions: (a) Are there any research gaps in terms of geographic location or scientific focus? (b) What is the effect of insect pollinators on avocado pollination and production? (c) Which pollinators are the most abundant and effective and how does this vary across location? (d) How can insect pollination be improved for higher yields? (e) What are the current evidence gaps and what should be the focus of future research? Research from many regions of the globe has been published, however, results showed that there is limited information from key avocado producing countries such as Mexico and the Dominican Republic. In most studies, insects were shown to contribute greatly to pollination, fruit set and yield. Honeybees Apis mellifera were important pollinators in many regions due to their efficiency and high abundance, however, many wild pollinators also visited avocado flowers and were the most frequent visitors in over 50% of studies. This study also highlighted the effectiveness of stingless bees (Meliponini) and blow flies (Calliphoridae) as avocado pollinators although, for the majority of flower visitors, there is a lack of data on pollinator efficiency. For optimal yields, growers should ensure a sufficient abundance of pollinators in their orchards either through increasing honeybee hive density or, for a more sustainable approach, by managing wild pollinators through practices that protect or promote natural habitat.     

Bird and insect pollinators differ in specialization and potential pollination services along disturbance and resource gradients

Combined studies of the communities and interaction networks of bird and insect pollinators are rare, especially along environmental gradients. Here, we determined how disturbance by fire and variation in sugar resources shape pollinator communities and interactions between plants and their pollinating insects and birds. We recorded insect and bird visits to 21 Protea species across 21 study sites and for 2 years in Fynbos ecosystems in the Western Cape, South Africa. We recorded morphological traits of all pollinator species (41 insect and nine bird species). For each site, we obtained estimates of the time since the last fire (range: 2–25 calendar years) and the Protea nectar sugar amount per hectare (range: 74–62 000 g/ha). We tested how post-fire age and sugar amount influence the total interaction frequency, species richness and functional diversity of pollinator communities, as well as pollinator specialization (the effective number of plant partners) and potential pollination services (pollination service index) of insects and birds. We found little variation in the total interaction frequency, species richness and functional diversity of insect and bird pollinator communities, but insect species richness increased with post-fire age. Pollinator specialization and potential pollination services of insects and birds varied differently along the environmental gradients. Bird pollinators visited fewer Protea species at sites with high sugar amount, while there was no such trend for insects. Potential pollination services of insect pollinators to Protea species decreased with increasing post-fire age and resource amounts, whereas potential pollination services of birds remained constant along the environmental gradients. Despite little changes in pollinator communities, our analyses reveal that insect and bird pollinators differ in their specialization on Protea species and show distinct responses to disturbance and resource gradients. Our comparative study of bird and insect pollinators demonstrates that birds may be able to provide more stable pollination services than insects.     

Seasonal complementary in pollinators of soft-fruit crops

Understanding the relative contributions of wild and managed pollinators, and the functional contributions made by a diverse pollinator community, is essential to the maintenance of yields in the 75% of our crops that benefit from insect pollination. We describe a field study and pollinator exclusion experiments conducted on two soft-fruit crops in a system with both wild and managed pollinators. We test whether fruit quality and quantity is limited by pollination, and whether different pollinating insects respond differently to varying weather conditions. Both strawberries and raspberries produced fewer marketable fruits when insects were excluded, demonstrating dependence on insect pollinators. Raspberries had a short flowering season which coincided with peak abundance of bees, and attracted many bees per flower. In contrast, strawberries had a much longer flowering season and appeared to be much less attractive to pollinators, so that ensuring adequate pollination is likely to be more challenging. The proportion of high-quality strawberries was positively related to pollinator abundance, suggesting that yield was limited by inadequate pollination on some farms. The relative abundance of different pollinator taxa visiting strawberries changed markedly through the season, demonstrating seasonal complementarity. Insect visitors responded differently to changing weather conditions suggesting that diversity can reduce the risk of pollination service shortfalls. For example, flies visited the crop flowers in poor weather and at the end of the flowering season when other pollinators were scarce, and so may provide a unique functional contribution. Understanding how differences between pollinator groups can enhance pollination services to crops strengthens the case for multiple species management. We provide evidence for the link between increased diversity and function in real crop systems, highlighting the risks of replacing all pollinators with managed alternatives.     

Role of pollination in yield and physicochemical properties of tomatoes (Lycopersicon esculentum)

Very little is known about pollination and its effects on the yield and physicochemical properties of flowering plants in tropical countries. Wind and insect pollinators are among our natural resources because pollination is the most important ecosystem service performed by wind and insects, and is vital to the socio-economic status of human beings. In this experiment, different pollination methods for tomato plants were examined. Self-pollination was encouraged by covering the plants with a plastic sheet. Wind and insects were excluded from these plants, and thus only self-pollination was possible. The experiment occurred during the flowering stage. Wind-pollinated plants were covered with a muslin cloth, which excluded insects, and only wind could pass through the cloth. For insect pollination, plants remained uncovered, allowing free access to insects to pollinate the flowers. At fruit maturity, when fruits were completely red, fruits from each treatment were harvested on the same date and under the same conditions. Results illustrated the substantial importance of insects as pollinators of tomato crops. Open field had greater tomato yield and positive effects on physicochemical properties on fruit than under self and wind pollination.     

Insect pollination in deep time

Inferring insect pollination from compression fossils and amber inclusions is difficult because of a lack of consensus on defining an insect pollinator and the challenge of recognizing this ecological relationship in deep time. We propose a conceptual definition for such insects and an operational classification into pollinator or presumed pollinator. Using this approach, we identified 15 insect families that include fossil pollinators and show that pollination relationships have existed since at least the Upper Jurassic (~163 Ma). Insects prior to this can only be classified as presumed pollinators. This gives a more nuanced insight into the origin and evolution of an ecological relationship that is vital to the establishment, composition and conservation of modern terrestrial ecosystems.     

The relative importance of birds and insects as pollinators of the New Zealand flora

Native birds may have been underestimated as pollinators of the New Zealand flora due to their early decline in abundance and diversity on the mainland. This paper reconsiders the relative importance of birds and insects as pollinators to eight native flowering plants, representing a range of pollination syndromes, on two offshore island refuges. Experimental manipulations were made on five of these plant species to assess the relative effectiveness of bird and insect visitors as pollinators. In addition, foraging behaviour and the respective morphologies of flowers and visitors were measured at all eight plants to identify the main pollinators. The experimental measures showed that percentage fruit set was significantly higher in flowers exposed to birds than flowers from which birds were excluded in all manipulated plants. The observational measures revealed that for six of the flowering species (Sophora microphylla, Vitex lucens, Pittosporum crassifolium, Pittosporum umbellatum, Pseudopanax arboreus and Dysoxylum spectabile) the endemic honeyeaters were most likely to meet the conditions necessary for successful pollination. For the remaining two species (Metrosideros excelsa and Geniostoma ligus trifolium) the contribution by honeyeaters and insects to pollination was equivalent. The results suggest that the role of the endemic honeyeaters in pollination of the New Zealand flora, and the subsequent regeneration of native forest ecosystems, should be important considerations in ecosystem management.