海南岛的滨海旅游

海南岛位处中国的最面端,为热带季风气候区,地理位置优越,旅游资源特别是滨海旅游资源丰富,阳光、海水、沙滩、绿色、空气等要素齐全,再加上珊瑚礁、红树林等独特的海洋生态系统,为海南进行生态旅游及从观光旅游向观光度假旅游提供了良好的条件。海南建省后旅游业发展迅速,旅游景点和旅游设施逐渐完善,旅游市场不断规范。今后的发展趋势将是生态旅游,特别是在珊瑚礁和红树林区域,将科学考察、探险与休闲结合,在进行旅游的     

基于PSR模型的珊瑚礁生态系统健康评价指标体系的构建与应用

运用压力-状态-响应（pressure-state-response,PSR）模型,采用生态系统健康理论评价珊瑚礁生态状况.借鉴国内外现有生态系统评价方法,结合珊瑚礁生态系统的特点,建立适合我国国情的珊瑚礁生态系统评价方法和模式,并对我国典型海域珊瑚礁生态健康状况进行评价,以期为我国典型珊瑚礁生态系统健康状况提供基础资料.评价结果显示东山、涠洲岛、海南东部珊瑚礁生态健康状况为健康,徐闻和西沙海域珊瑚礁生态健康状况为亚健康,评价结果与我国相关生态监控区调查结果基本一致.     

西沙赵述岛海域珊瑚礁生态修复效果的初步评估

珊瑚恢复是一个协助退化、受损的珊瑚礁生态系统恢复的过程.近10 a来,西沙珊瑚礁生态系统不断退化,至2009年珊瑚覆盖率已下降至不足10%.针对西沙群岛珊瑚礁生态系统的退化状况,2011年12月于西沙赵述岛海域投放人工礁基并开展珊瑚移植实验,比较了人工修复区和自然恢复区1a后的修复效果.结果显示,投放礁基且进行珊瑚移植的区域,移植珊瑚的存活率不到10%;投放礁基但未进行珊瑚移植的区域,珊瑚补充量高达6~7 ind/m2;自然恢复区其珊瑚覆盖率提高了19.4%.依据珊瑚礁生态修复效果评估方法,人工修复且进行移植珊瑚的区域的生物修复权重值为27.5,人工修复但未移植珊瑚区及自然恢复区的生物修复权重值为39.3,珊瑚修复生物指标为亚健康.我们的结果表明,在健康、有良好珊瑚幼虫补充的珊瑚礁生态系统中,珊瑚礁群落可以自行恢复,其恢复只是一个时间的问题;而在缺少珊瑚幼虫附着基底的区域,通过人为增加一些附着基底,可加速其恢复进程.     

Distribution and feeding patterns of juvenile parrotfish on algal‐dominated coral reefs

By the consumption of algae, parrotfishes open space for young coral settlement and growth, thus playing a central role on the maintenance of coral reefs. However, juvenile parrotfish ecology is often overlooked due to the difficulty discerning species during this phase. Herein, we present the first attempt to investigate changes in habitat use and diet that happen to juveniles of the Redeye parrotfish Sparisoma axillare, focusing on four zones within an algal‐dominated reef: the macroalgal beds, back reef, reef flat, and fore reef. Smaller S. axillare juveniles (<5 cm) preferred to inhabit the macroalgal beds and the reef flat, whereas juveniles larger than 5 cm were more abundant in the back and fore reefs due to distinct post‐settlement habitat conditions. Aggressive interactions with the territorial damselfish Stegastes fuscus were the primary driving factor of juvenile distribution and feeding rates. Attack rates increased with juvenile size and the lowest bite rates were observed in zones with higher densities of territorial damselfish. In previous studies, the persistence of parrotfish recruits in habitats dominated by damselfish was reduced, but newly settled parrotfish occurred more densely within the damselfish domain by behaving as a cryptic reef fish. As these juveniles grew, their bite rates increased, a change associated with a shift from cryptic to roving behavior. Feeding preferences were determined by substrate cover, where juveniles fed on available food sources in each habitat. Juveniles relied on jointed calcareous algae in habitats dominated by these algae, a pattern not observed for thick leathery algae. Filamentous algae were the preferred food for smaller fish; for individuals greater than 10 cm, a higher ingestion of sand was observed. Most studies evaluating the functional role of parrotfish do not consider species feeding preferences. However, the potential for a species to turn an impacted reef back to a coral‐dominated phase is influenced by their food selection, which is dependent on the algal species composition.     

广西石炭纪早期下垌村珊瑚礁基本特征及其沉积环境分析

广西田林地区发育有早石炭世全球罕见的后生动物格架礁,该珊瑚礁的主体部分由双型珊瑚(Diphyphyllum)、丛管珊瑚(Siphonodendron)、石柱珊瑚(Lithostrotion)以及笛管珊瑚(Syringopora)等建造而成。这些造架珊瑚个体一般以无性出芽繁殖生长和躲避障碍物弯曲生长的竞争模式占据更多的空间生态位,而群体之间则以越顶生长的策略取得竞争的胜利。礁体连续发育,无明显的间断性和旋回性,但造礁生物的组合在礁体纵向分布上存在一定差异,可识别出3个连续的生物组合单元,即Diphyphyllum组合、Siphonodendron-Lithostrotion组合和Diphyphyllum-Syringopora组合。对礁剖面岩石的微相特征研究,划分出了含少量生物碎屑粒泥灰岩、钙藻粒泥灰岩、生物碎屑泥粒灰岩、灰泥质颗粒灰岩、珊瑚格架岩和有孔虫生物碎屑亮晶颗粒岩等6种微相类型。礁体在发育过程中经历了由深水开阔台地相到浅水开阔台地相,珊瑚礁相到台内斜坡相再到台内浅滩相,标志着海平面逐渐下降、水体变浅、水动能不断增强的沉积环境。     

The intrinsic effect of shape on the retrogradation motif and timing of drowning of carbonate patch reef systems (Lower Frasnian,Bugle Gap,Canning Basin,Western Australia)

The evolution and architecture of a set of retreating Lower Frasnian patch reef outcrops in the Canning Basin of Western Australia were evaluated, and their depositional and stratigraphic contacts spatially recorded using digital surveying tools. The geological data, together with high‐resolution digital elevation models, were assembled in three‐dimensional visualization and modelling software and subsequently used for building two‐dimensional surface models and three‐dimensional volumetric models. Numerical data on geometry and shape were extracted from these models and used to quantitatively assess the retrogradation motif of patch reef development. The development of the patch reefs comprises three stages. During stages 1 and 2, the patch reefs exhibited an overall retrogradational escarpment‐type configuration displayed by, on average, 60° steep reef‐margin walls that lacked the support of coeval slope deposits. The subdivision between stages 1 and 2 is based on minor backstepping reducing less than 10% of the platform‐top area. The onset of stage 3 is recognized by stromatolite development fringing reef‐margin walls. During stage 3 an aggrading accretionary reef‐margin developed, comprising allochthonous and autochthonous slope deposits. Both types of slope deposit onlap the previous stages and are distributed unevenly with allochthonous slope deposits being noticeably absent around the smaller and more elongate patch reefs. The variation in distribution of slope sediment type can be explained by the amount, linked to platform size, of platform‐top shedding. Small patch reefs were unable to fill the available accommodation adjacent to escarpments with allochthonous slope sediments and were thus encroached by autochthonous slope sediments. The variation, which cannot be explained by the size difference in the platform‐top factory, has been related to the difference in perimeter length. For patch reefs with similar platform‐top production areas, a more elongate patch reef inherits a longer perimeter and a proportionally smaller volume of allochthonous slope sediment per margin length will be transported to the flanks. Thus, the more elongate patch reef intrinsically contained more sites within which autochthonous slope sediments developed. Digital outcrop modelling and numerical evaluation of the evolution of the patch reefs revealed the major differences in retrogradation motif. The quantified variations in progressive decline of platform‐top area with height were confirmed by hypothetical decline curves for ellipse‐shaped carbonate systems for which aspect ratio (ratio between length and width) varied. This mathematical model demonstrates that the progressive decline of the production area is highly sensitive to shape and can be used to numerically assess and predict the relative timing of drowning, i.e. when the platform‐top production area becomes nil, of retrogradational isolated carbonate platforms that are controlled by high accommodation. Wider implications can be surmised for highstand systems tracts and prograding carbonate systems. For example, for equally sized platforms with hypothetically similar carbonate factories and identical external forces, the potential to prograde by platform‐top shedding is higher with a smaller aspect ratio because the shorter perimeter implies less accommodation space needing to be filled up to commence slope progradation. Clearly, there are intrinsic effects of shape on the development of carbonate platform systems.     

钙质砂室内载荷试验研究

为保护和开发海洋资源,在珊瑚礁上进行工程建设时必须要查明岛礁上钙质砂地基的承载力和变形特性。室内载荷试验的结果表明,相同密实度的钙质砂具有比石英砂大得多的承载力和变形模量,变形量则小得多;钙质砂的承载力随着相对密实度的增大而增大,破坏时的变形量显著减小;相同密实度下饱和钙质砂比干燥钙质砂的承载力和变形模量低很多。钙质砂地基中土压力随深度急剧衰减,荷载的有效影响深度为2～3倍基础宽度;随着荷载的增大,土压力从表层逐渐传递到更深的土层。     

滇东南弗拉斯期放射虫硅质岩地球化学特征及沉积环境探讨

在滇东南麻栗坡地区广泛分布的榴江组薄层状硅质岩中.发现包含放射虫动物群Helenifor robustum和Heleniore laticlavium的重要分子,地质时代为晚泥盆世弗拉斯早期.硅质岩SiO2含量在80.2%-95.72%之间,Al2O3含量集中在0.32%-3.83%之间,平均为2.07%,Si/Al值...     

GPS近景交会定位技术在海岛礁测绘上的运用

海岛礁测绘工程是国家测绘局"十一五"期间的5个重要项目之一,GPS近景交会定位模块是卫星快速定位信息采集系统的一部分.该技术可完成对海岛礁特殊地形的测绘任务,对困难海岸线的测绘提出新方法.     

近50年来三亚鹿回头岸礁活珊瑚覆盖率的动态变化

对三亚鹿回头珊瑚岸礁5条断面进行实地潜水调查并室内判读海底录像,得到该岸段2005年和2006年的礁坡活珊瑚覆盖率分别为14.79%和12.16%。与历史资料(1960年、1978年、1983年和1990年测值分别为80%—90%、60%、60%和35%,1998年约为41.5%,2002年为23.4%,2004年为20%)对比分析显示,近50年来该岸段活珊瑚覆盖率显著下降,珊瑚礁总体呈衰退趋势。研究表明,人类活动是造成三亚鹿回头珊瑚礁衰退并影响将来发展的重要因素:过度和破坏性捕捞以及大规模采挖礁块等活动直接导致了该岸段珊瑚礁在七八十年代出现的巨大衰退;海上珍珠贝、麒麟菜等养殖活动是造成近期破坏的主要原因;正在影响该岸段珊瑚礁覆盖率仍持续下降的主要原因是沿岸对虾或鲍育苗养殖;三亚河和近海工程建设、航运活动带来的泥沙和污染物以及正向鹿回头扩展的潜水旅游活动已成为不可忽视的威胁。所以,保护该岸段珊瑚礁,需要在了解该岸礁活珊瑚覆盖率动态变化的基础上认清保护管理的紧迫性,并针对不同区域珊瑚群落的具体特征和影响因素制定合理、有效的管理措施。