异叶苣苔属系统学和进化研究——兼论尖舌苣苔族的系统发育

异叶苣苔属(Whytockia)隶属于苦苣苔科(Gesneriaceae)、尖舌苣苔族(Klugieae)．70年代以来，该属作为Klugieae中最原始的类群才逐渐被人们所认识，并被认为是解决Klugieae系统发育问题的关键类群，但到目前为止，对该属变异式样及系统发育的认识仍然极其有限．鉴于上述原因，本文结合蜡叶标本和大量的野外观察和采集，从形态学、维管束的结构和分化，形态发生和细胞学等方面，进行异叶苣苔属的系统学和进化研究，并兼论尖舌苣苔族的系统发育． 1．通过对异叶苣苔属大量性状的仔细观察和比较，本文选择了34个性状，并分析了他们的变异式样及其形成原因，为进一步的系统学研究提供依据． 2．地上茎的形态发生研究揭示出异叶苣苔属植物的顶芽完全受到抑制，位于小型叶腋的侧芽萌发，从而替代顶芽生长，地上茎的不分枝是位于大型叶腋的腋芽受到抑制所致，该研究纠正了前人的观察错误． 3．花序及花的形态发生过程表明，异叶苣苔属的花序呈对花从花序轴内侧二列式连续发生，没有任何分枝和附属物．花各部分的发生顺序基本上呈向心式，但在花冠和雄蕊原基之间则为离心式发生．花萼和花冠原基的发生及发育顺序均呈下降式，从而使花萼和花冠在芽中呈下降覆瓦状排列，退化雄蕊是由发育停滞所致．雌蕊的两个心皮在形态发生过程中由离生到合生，该属具中轴胎座的二室子房起源于两个离生心皮的近轴面内卷式愈合，柱头从离生到合生决定于个体发育中愈合部向上推进的程度． 4．为了澄清性状演化极性这一关键问题、本文作了花部器官解剖以及心皮维管束结构及分化过程的研究，结果表明，该属花梗和花萼中均具有分泌道和雄蕊束从中柱独立分出，同独叶苣苔属(Monophyllaea)十分相似：花盘低且薄并且没有维管束，以及子房壁维管束具有不同来源而区别于尖舌苣苔族(Klugieae)中的其它类群．异叶苣苔属的心皮结合程度和胎座形态可分为三种类型，即A型：心皮结合部的中轴区膨大，但四个瓣片的上部分离、B型：除中轴区膨大外，四个瓣片也成对愈合，胎座呈锚形、C型：中轴区不膨大，四个瓣片完全分离，子房上部一室．前者保留了较多的叶性，可能是该属乃至尖舌苣苔族中最原始心皮及胎座形态．后二者代表着两个相反的演化趋势． 5．本文首次报道了异叶苣苔属的染色体数目和核型，染色体数目均为2n＝18，x＝9．核型分别是2A或3A．核型的演化趋势，即从对称到不对称和随体的丢失同外部形态的变异密切相关。 6．深入地比较和分析了异叶苣苔属和其他类群的关系以及性状的演化趋势，并运用分支分析方法，重建属的系统发育． 7．生态、地理分布和演化的研究表明：异叶苣苔属的多样化中心分别是云南东南部和滇、贵、川交界区域，起源于第三纪或更早期的古热带湿润性森林植物区系，起源地可能是两个现代多样化中心所连接的整个区域，即：滇东南至滇贵川交界区域． 8．本文对异叶苣苔属进行全面的分类学修订，包括7个种，其中一个新种，新组合1个种和一个变种、根据该属的系统发育式样，在属下新设两个组．系统排列如下： 异叶苣苔属Whytockia W. W. Smith 组1：异叶苣苔组Sect. Whytockia Y. Z. Wang sect. nov. 1．河口异叶苣苔W. hekouensis Y. Z. Wang 2．毕节异叶苣苔W. bijieensis Y. Z. Wang, sp. nov. 3．异叶苣苔W. chiritiflora (Oliv.) W.W. Smith 4．峨眉异叶苣苔W. wilsonii (A. Weber) Y. Z. Wang, stat. nov. 5．紫红异叶苣苔W. purpurascens Y. Z. Wang 组2：台湾异叶苣苔组Sect. Synstigma Y. Z. Wang, sect. nov. 6．白花异叶苣苔W. tsiangiana (Hand.-Mazz) A. Weber 7．台湾异叶苣苔W. sasakii (Hayata)B．L．Burtt. 9．在异叶苣苔属系统学和进化研究的基础上，结合前人工作，本文进一步探讨尖舌苣苔族的系统发育．大量的证据充分显示出异叶苣苔属和圆果苣苔属分别是Klugieae最原始的类群，该族中的尖舌苣苔属(Rhynchoglossum)，盾座苣苔属(Epithema)和独叶苣苔属(Mono phyllaea)，可能是从Whytockia植物的早期类群直接演化而来，十字苣苔属(Stauranthera)和Loxonia也可能直接或间接来自Gyrogyne植物的早期类群．尖舌苣苔族植物可能起源于亚洲大陆或更准确地说，中国西南部地区，在随后的演化过程中，经过分化、迁移，逐渐形成广布于南亚、东南亚及太平洋岛屿至西非、中美洲的现代地理分布式样。

Marine Fisheries Stock Assessment Improvement Plan: report of the National Marine Fisheries Service National Task Force for Improving Fish Stock Assessments

This report argues for greatly increased resources in terms of data collection facilities and staff to collect, process, and analyze the data, and to communicate the results, in order for NMFS to fulfill its mandate to conserve and manage marine resources. In fact, the authors of this report had great difficulty defining the "ideal" situation to which fisheries stock assessments and management should aspire. One of the primary objectives of fisheries management is to develop sustainable harvest policies that minimize the risks of overfishing both target species and associated species. This can be achieved in a wide spectrum of ways, ranging between the following two extremes. The first is to implement only simple management measures with correspondingly simple assessment demands, which will usually mean setting fishing mortality targets at relatively low levels in order to reduce the risk of unknowingly overfishing or driving ecosystems towards undesirable system states. The second is to expand existing data collection and analysis programs to provide an adequate knowledge base that can support higher fishing mortality targets while still ensuring low risk to target and associated species and ecosystems. However, defining "adequate" is difficult, especially when scientists have not even identified all marine species, and information on catches, abundances, and life histories of many target species, and most associated species, is sparse. Increasing calls from the public, stakeholders, and the scientific community to implement ecosystem-based stock assessment and management make it even more difficult to define "adequate," especially when "ecosystem-based management" is itself not well-defined. In attempting to describe the data collection and assessment needs for the latter, the authors took a pragmatic approach, rather than trying to estimate the resources required to develop a knowledge base about the fine-scale detailed distributions, abundances, and associations of all marine species. Thus, the specified resource requirements will not meet the expectations of some stakeholders. In addition, the Stock Assessment Improvement Plan is designed to be complementary to other related plans, and therefore does not duplicate the resource requirements detailed in those plans, except as otherwise noted.

Determination of length-weight relationship of squid (Loligo duvauceli) found along Pakistan coast

Common squid (Loligo duvauceli) is caught as by-catch of shrimp trawlers in shallow coastal. waters off Pakistan. Size frequency data of squid for sexes combined collected from Karachi Fish Harbour were analyzed. The length-weight relationship of the form W = a.L b was determined and to mean length of squid sample measured compared with mean length derived from inverse equation was tested for any significant differences, none were observed and it was inferred that the equation W = 0.243xL 2.2424 describe the relationship.

Report of the baseline survey undertaken on the Chinese cage site in Napoleon Gulf, Northern Lake Victoria, 12 March 2012

The government of the People's Republic of China through a 2007 agreement with the Government of the Republic of Uganda, has establishment of an Agricultural Technology Demonstration Center (ATDC). The first phase covering the building of aquaculture infrastructure at Kajjansi ARDC is complete and the second operation phase has started in which facilities for cage culture have been set up in the Napoleon gulf, northern Lake Victoria near Jinja. The cage facility is aimed at boosting fish farming within the lake as a diversification to the traditional pond fish culture technology. NaFIRRI scientists as well as Chinese experts undertook a baseline survey in the chosen cage site on 12 March 2012. The survey covered determination of water depth, water transparency, measurement of selected physical-chemical parameters (temperature,dissolved oxygen, conductivity and pH; determination of the nutrient status and study of algae, invertebrate and fish communities at the site. Materials and methodologies used in the survey were based on the Standard Operating Procedures (SOPs) of NaFIRRI. The study area was divided into three study sites. Site 1 (upstream) was at 8.9 metre depth while site 2 (proposed cage site) and site 3 (downstream) were 6 and 4.3 metres deep respectively. Water transparency was lowest at site 1 (1.58 m) and highest at site 3 (1.64 m). Dissolved oxygen at the three sites ranged from 6.0 to 8 mg/I. Water temperature profiles fluctuated within narrow limits between 26.5 and 27.5 DC. Measurements of pH were between 7 (neutral) and 8 (alkaline) while electrical conductivity was between 98 and 101 uS/em. These observed physical-chemical parameters at the study site were considered suitable for cage fish rearing purposes. Nitrite-nitrogen levels varied within narrow limits from 0.043 to 0.0453 mgtl. Similarly, Ammonia-nitrogen varied between 0.015 and 0.0185 mg/1. Soluble reactive phosphorus (SRP) level was highest at site 3 (O.012mgll) compared to that at sites 1 and 2 (0.009mgll). Total suspended solids (TSS) were higher at site 1 (83.3mgll), thereafter decreasing to lower levels at sites 2 (24.8mgtl) and 3 (19.8mgl) respectively. The nutrient level results observed here all fall below the maximum permissible limits by NEMA and therefore the site is recommended for cage culture The algal community was constituted by four major groups: Blue greens,Greens, Cryptophytes, and Diatoms with blue greens as the common and dominant group. High algal biomass (19944961 ugtL) of the dominant blue green algae was observed at site 1 compared site 2 and 3 (58655.2 & 27487. 7 ugtL) respectively. Occurrence of toxicin producing algae: microsytis and cylindrospermopsis in the proposed cage area was considered to be of not much significance as their concentrations were below harmful levels. However, monitoring their presence, biomass and seasonality will be critical in order to follow when and where they occur and at what time of the year for ease of management of the cages

Hot electron field emission via individually transistor-ballasted carbon nanotube arrays.

We present electronically controlled field emission characteristics of arrays of individually ballasted carbon nanotubes synthesized by plasma-enhanced chemical vapor deposition on silicon-on-insulator substrates. By adjusting the source-drain potential we have demonstrated the ability to controllable limit the emission current density by more than 1 order of magnitude. Dynamic control over both the turn-on electric field and field enhancement factor have been noted. A hot electron model is presented. The ballasted nanotubes are populated with hot electrons due to the highly crystalline Si channel and the high local electric field at the nanotube base. This positively shifts the Fermi level and results in a broad energy distribution about this mean, compared to the narrow spread, lower energy thermalized electron population in standard metallic emitters. The proposed vertically aligned carbon nanotube field-emitting electron source offers a viable platform for X-ray emitters and displays applications that require accurate and highly stable control over the emission characteristics.

Uncertainty increases pain: evidence for a novel mechanism of pain modulation involving the periaqueductal gray.

Predictions about sensory input exert a dominant effect on what we perceive, and this is particularly true for the experience of pain. However, it remains unclear what component of prediction, from an information-theoretic perspective, controls this effect. We used a vicarious pain observation paradigm to study how the underlying statistics of predictive information modulate experience. Subjects observed judgments that a group of people made to a painful thermal stimulus, before receiving the same stimulus themselves. We show that the mean observed rating exerted a strong assimilative effect on subjective pain. In addition, we show that observed uncertainty had a specific and potent hyperalgesic effect. Using computational functional magnetic resonance imaging, we found that this effect correlated with activity in the periaqueductal gray. Our results provide evidence for a novel form of cognitive hyperalgesia relating to perceptual uncertainty, induced here by vicarious observation, with control mediated by the brainstem pain modulatory system.

Neural mechanisms of belief inference during cooperative games.

Humans have the arguably unique ability to understand the mental representations of others. For success in both competitive and cooperative interactions, however, this ability must be extended to include representations of others' belief about our intentions, their model about our belief about their intentions, and so on. We developed a "stag hunt" game in which human subjects interacted with a computerized agent using different degrees of sophistication (recursive inferences) and applied an ecologically valid computational model of dynamic belief inference. We show that rostral medial prefrontal (paracingulate) cortex, a brain region consistently identified in psychological tasks requiring mentalizing, has a specific role in encoding the uncertainty of inference about the other's strategy. In contrast, dorsolateral prefrontal cortex encodes the depth of recursion of the strategy being used, an index of executive sophistication. These findings reveal putative computational representations within prefrontal cortex regions, supporting the maintenance of cooperation in complex social decision making.