Opportunistic feeding of longhorn sculpin (Myoxocephalus octodecemspinosus): Are scallop fishery discards an important food subsidy for scavengers on Georges Bank?

There has been much recent interest in the effects of fishing on habitat and non-target species, as well as in protecting certain areas of the seabed from these effects (e.g. Jennings and Kaiser, 1998; Benaka, 1999; Langton and Auster, 1999; Kaiser and de Groot, 2000). As part of an effort to determine the effectiveness of marine closed areas in promoting recovery of commercial species (e.g. haddock, Melanogrammus aegelfinus; sea scallops, Placopecten magellanicus; yellowtail flounder, Limanda ferruginea; cod, Gadus morhua), nontarget species, and habitat, a multidisciplinary research cruise was conducted by the Northeast Fisheries Science Center (NEFSC), National Marine Fisheries Service. The cruise was conducted in closed area II (CA-II) of the eastern portion of Georges Bank during 19–29 June 2000 (Fig. 1). The area has historically produced high landings of scallops but was closed in 1994 principally for groundfish recovery (Fogarty and Murawski, 1998). The southern portion of the area was reopened to scallop fishing from 15 June to 12 November 1999, and again from 15 June to 15 August 2000. While conducting our planned sampling, we observed scallop viscera (the noncalcareous remains from scallops that have been shucked by commercial fishermen at sea) in the stomachs of several fish species at some of these locations, namely little skate (Raja erinacea), winter skate (R. ocellata), red hake (Urophycis chuss), and longhorn sculpin (Myoxocephalus octodecemspinosus). We examined the stomach contents of a known scavenger, the longhorn sculpin, to evaluate and document the extent of this phenomenon.

Recovery of the Gulf of Maine--Georges Bank Atlantic herring (Clupea harengus) complex: perspectives based on bottom trawl survey data

NMFS bottom trawl survey data were used to describe changes in distribution, abundance, and rates of population change occurring in the Gulf of Maine–Georges Bank herring (Clupea harengus) complex during 1963–98. Herring in the region have fully recovered following severe overfishing during the 1960s and 1970s. Three distinct, but seasonally intermingling components from the Gulf of Maine, Nantucket Shoals (Great South Channel area), and Georges Bank appear to compose the herring resource in the region. Distribution ranges contracted as herring biomass declined in the late 1970s and then the range expanded in the 1990s as herring increased. Analysis of research survey data suggest that herring are currently at high levels of abundance and biomass. All three components of the stock complex, including the Georges Bank component, have recovered to pre-1960s abundance. Survey data support the theory that herring recolonized the Georges Bank region in stages from adjacent components during the late 1980s, most likely from herring spawning in the Gulf of Maine.

Integration of submersible transect data and high-resolution multibeam sonar imagery for a habitat-based groundfish assessment of Heceta Bank, Oregon

In the face of dramatic declines in groundfish populations and a lack of sufficient stock assessment information, a need has arisen for new methods of assessing groundfish populations. We describe the integration of seafloor transect data gathered by a manned submersible with high-resolution sonar imagery to produce a habitat-based stock assessment system for groundfish. The data sets used in this study were collected from Heceta Bank, Oregon, and were derived from 42 submersible dives (1988–90) and a multibeam sonar survey (1998). The submersible habitat survey investigated seafloor topography and groundfish abundance along 30-minute transects over six predetermined stations and found a statistical relationship between habitat variability and groundfish distribution and abundance. These transects were analyzed in a geographic information system (GIS) by using dynamic segmentation to display changes in habitat along the transects. We used the submersible data to extrapolate fish abundance within uniform habitat patches over broad areas of the bank by means of a habitat classification based on the sonar imagery. After applying a navigation correction to the submersible-based habitat segments, a good correlation with major boundaries on the backscatter and topographic boundaries on the imagery were apparent. Extrapolation of the extent of uniform habitats was made in the vicinity of the dive stations and a preliminary stock assessment of several species of demersal fish was calculated. Such a habitat-based approach will allow researchers to characterize marine communities over large areas of the seafloor.

Production and conservation of nutrient-rich small fish (SIS) in ponds and wetlands for nutrition security and livelihoods in South Asia: Proceedings of a World Bank/SAFANSI funded regional workshop on small fish and nutrition, Dhaka, Bangladesh, 1st - 2nd March 2014

Small indigenous fish species (SIS) are an important source of essential macro- and micronutrients that can play an important role in the elimination of malnutrition and micronutrient deficiencies in the populations of many South and Southeast Asian countries. Of the 260 freshwater fish species in Bangladesh, more than 140 are classified as SIS and are an integral part of the rural Bangladeshi diet. As many SIS are eaten whole, with organs and bones, they contain high amounts of vitamins and minerals, including calcium, and iron and zinc. Some SIS, such as mola, are also rich in vitamin A. SIS are often cooked with vegetables and a little oil, so they contribute to the food diversity of the rural poor.SIS are recognized as a major animal-source food group, contributing to improved food and nutrition security and livelihoods of the people of South and Southeast Asia. The purpose of this workshop is to bring together policy makers, extension agents, researchers, non-governmental and development organizations to share knowledge about small fish, their contribution to better nutrition, production technologies, and strategies for wider dissemination of pond culture and wetland based-production and conservation technologies. The workshop is expected to generate ideas for further research and development of sustainable technologies for production, management and conservation of SIS for the benefit of the people of Bangladesh as well as the South and Southeast Asian region.

针茅属植物锥形繁殖体打钻及其适应意义的研究羊草草原群落植物水分来源对放牧干扰的响应

锥形繁殖体是具有吸湿芒和锐利尖端的一种繁殖体类型。芒的吸湿运动促使锥形繁殖体穿透土壤，而存在于繁殖体上的短硬刚毛阻止它在芒再次打开螺旋时从土壤中退出。通过这个过程，种子被埋藏到一定深度，称之为种子（繁殖体）的打钻作用，这是锥形繁殖体最主要的功能。锥形繁殖体的结构和功能代表了繁殖体在生活史各个阶段的适应，可能是植物在群落内占优势的原因之一。针茅属植物是具有锥形繁殖体的植物中较大的一类，常常被看作是识别地带性植被的优势种。小针茅分布于荒漠草原，克氏针茅和大针茅分别分布于典型草原较干和较湿的区域。沿着环境梯度的变化这些植物呈现明显的生态替代。因此，我们以小针茅、克氏针茅和大针茅为研究对象，从种子打钻、种子埋藏、种子生理特征出发研究针茅属植物的繁殖体特征对地带性分布的适应。结果表明： 小针茅的实生苗主要由当年种子产生，克氏针茅和大针茅在当年的冷秋季节和第二年的春季均能够产生实生苗。根据土壤种子库分类，三种针茅均具有瞬时种子库，所不同的是小针茅具有I型种子库的特征，克氏针茅和大针茅具有II型种子库的特征。针茅属植物通过芒的吸湿运动将繁殖体埋入土壤，这个过程可以造成种子损伤，但大部分只是引起基盘的脱落，而这不影响萌发，受到严重损伤的种子仅占种子库很小的一部分。 繁殖体吸湿芒的损伤程度和繁殖体的入土角度都影响繁殖体的埋藏。当芒被过度损伤以致不能提供杠杆作用时繁殖体不能埋藏。而繁殖体入土角度和埋藏深度之间存在显著的负相关关系。繁殖体的埋藏能力并不总是与土壤条件有关，大针茅和克氏针茅的繁殖体埋藏与土壤类型有关，而小针茅的埋藏主要与环境的湿度条件有关。 种子埋藏深度通过减少实生苗出现率和推迟实生苗的出现时间来影响实生苗的出现。埋藏深度与实生苗的出现率呈显著负相关，与实生苗出现时间呈显著的正相关关系。棕钙土内种子埋藏深度对实生苗出现的影响比在栗钙土内的影响更明显。不同针茅物种具有不同的最适埋藏深度范围，小针茅的最适埋藏深度更浅而范围也更窄，这与它出现的环境有关。因此，繁殖体的形态和生理特征都体现了不同针茅繁殖体对环境条件的进化适应，可以从有性更新的角度解释针茅属植物的地带性分布和生态替代的原因。 放牧是羊草草原的主要利用方式。放牧引起的植被变化影响水分的可用性，而反过来植物所获取的水分来源也可以影响物种的分布。通过测定内蒙古羊草草原群落放牧和不放牧区内主要植物种和土壤的氢同位素值来研究植物 的水分来源，确定放牧对植物使用水分来源的影响，调查放牧前后植物的水分来源变化和相对生物量变化的关系。 我们发现120 cm深的土壤剖面在统计学上可以分为三层：0-20 cm, 20-50 cm和50-120 cm。低于50 cm土壤层的氢同 位素信号类似于地下水，这部分水分很少受到降雨的影响也不被任何植物所利用。群落内，灌木小叶锦鸡儿主要使 用来自20-50 cm土壤层的水分，除此之外大多数物种则主要使用来自水分含量频繁波动的地下20 cm土壤层内的水分。放牧使群落倾向于利用更浅层的土壤水，对植物的水分来源的影响则直接反映到它们的生物量变化上。此外，植 物水分来源对放牧的响应和生物量对放牧的响应存在显著的相关关系，水分来源受到放牧影响越大的植物对放牧的响应越敏感。因此，我们有可能能够通过植物对水分来源的利用来估计物种在放牧演替中的丰富度分布。

紫茎泽兰种群补充特征

外来种紫茎泽兰 (Eupatorium adenophorum Spreng.) 对我国西南地区生态系统的危害已长达50~60年之久，我国于20世纪70年代开展紫茎泽兰的研究，但目前仍然没有能力将其限制在一个可控范围之内，随着我国对生物多样性重要性认识的加深，对于紫茎泽兰的研究也越来越深入。本文以四川攀枝花受入侵生态系统为例，通过对该地区植被、土壤种子库以及当地紫茎泽兰无性繁殖和种子萌发特征开展研究，分析受入侵生态系统的特征，结合紫茎泽兰种群补充特征，揭示紫茎泽兰入侵机制，探索管理受害生态系统的方法。 所选实验点为紫茎泽兰危害严重的地带，群落中紫茎泽兰为优势种，伴生种灌木18种，草本植物65种，草本层以紫茎泽兰最为昌盛，种群构成为1～4年生植株与其荫庇下大量的实生幼苗，Drude多度极大，频度达100%。紫茎泽兰与灌木重要值之间极显著负相关 (P<0.01) ，与其他草本重要值之间极显著负相关 (P<0.01) ，灌木与其他草本重要值间的相关性不显著 (P>0.05) 。说明紫茎泽兰的生长与灌木或草本间存在微妙的此消彼长的关联，充分显示了紫茎泽兰与当地物种间的竞争事实。 紫茎泽兰种子雨前的种子库为所研究地区绝大部分物种的长久性土壤种子库，本地区种子库的组成物种共有13种，包括灌木和草本。紫茎泽兰占整个种子库储量的61.3%，在长久种子库中占有明显的优势;种子库与植被间相似度为0.31，虽然种子库中物种均为植被的组成成分，但是植被中绝大多数物种种子未检测出，种子库中出现的物种与该物种本身的生理生态特性密切相关。种子雨是种子库的来源，紫茎泽兰种子雨前表层种子储量只占种子雨后的7.4%，中下层储量占33.8%，共占41.2%，即每年仅58.8%的种子在当年雨季萌发，剩余的在土壤中保持休眠状态。依 目前的研究结果，本地植被仅靠自然恢复的可能性不大。 紫茎泽兰种子最适发芽温度为25℃;储藏1.5 a后的种子萌发率有所下降，25℃下萌发率由77%下降为66%;紫茎泽兰种子有良好的休眠机制，对生境的干扰可以促进紫茎泽兰长久土壤种子库的形成，为紫茎泽兰种群补充奠定了基础。稀疏的植被有利于紫茎泽兰种子萌发及幼苗建植，对原生植被的破坏则促进了紫茎泽兰实生苗的补充。因而保护原始生境、减少对原生态系统的破坏，是减少和抑制紫茎泽兰种群补充的有效途径。 紫茎泽兰 (克隆) 离体无性繁殖的部位为根颈部分，其他离体部分没有无性繁殖能力或很弱;灌丛和路域生境下的离体部分在给予相同培养条件下，克隆繁殖效益有差别，灌丛生境萌芽较早，而主茎和叶生长速度较慢。拔除干扰对于紫茎泽兰萌生新枝具有刺激作用，对紫茎泽兰植株上部的割取类似于给它提供更新复壮的机会，因此在紫茎泽兰防治过程中一定要注意将其拔除干净，以防后患。