南海岛屿植物区系的研究

该项目采用野外调查与历史资料相结合的研究方法对南海岛屿的植物区系组成、特点、分布区类型、特有和替代现象作了详细分析，阐明了南海岛屿植物区系的形成、演化、分区及其与邻近地区和世界各大洲的关系。1、共登岛269座，搜集标本12499号，为历史以来该区野外工作之最。2、共发现新种12个，中国新记录属4个，中国新记录种8个，海南新记录科6个，海南新记录种125个，西沙群岛新记录种44个，香港新记录科4个，香港新记录属28个，香港新记录种108个，为区系分析提供了最新资料。3、订正学名462个；与《海南植物志》比较，增载海南植物531种。4、首次对南海岛屿地区植物区系进行了种的地理成分分析；提出南海岛屿种子植物种的分布区类型有12类型和20个变型；第一次对南海岛屿植物的替代现象和特有植物进行了研究；建立了一个新的分区方案，把南海岛屿地区分为5个植物区系小区。5、深刻揭示了自然历史背景对南海岛屿植物区系形成的影响和现代分布格局和形成过程，以及岛礁植物区系特征的形成机制。该成果填补了南海岛屿植物区系的空白，成果发表后引起国内外普遍的关注，被国内外学者比较广泛的引用，本成果是该地区植物区系最高水平的研究，有重要的学术价值和社会效益，总体上达到国际先进水平。

Planejamento ambiental da bacia hidrográfica do Rio Guapi-Macacu: estudo da paisagem e qualidade ecológica

Os estudos de relação entre a paisagem e a água doce vêm sendo aprofundados pela comunidade científica e pelos propositores de políticas públicas, principalmente, para atender às demandas sobre as maneiras que este sistema ambiental pode ser alterado e na identificação das implicações políticas e ecológicas destas mudanças. Quanto mais se torna intenso e diversificado o uso dos corpos hídricos e da paisagem em bacias hidrográficas maior é a necessidade de se definir formas de planejamento, gerenciamento e gestão ecológica desses ecossistemas. O completo entendimento do funcionamento e dos processos ecológicos que ocorrem em uma bacia hidrográfica exige conhecimento simultâneo de seus sistemas aquáticos e terrestres, da biodiversidade, da fisiografia, da geologia e de sua conservação, temporal e espacial. Este entendimento e conhecimento da área de interesse são vitais para proposições de instrumentos ambientais legais, como Unidades de Conservação (UCs). É muito importante que a fundamentação destas propostas tenha como eixo principal o funcionamento dos ecossistemas e das paisagens, de forma a garantir uma maior conectividade e integração entre água (doce, salobra e salgada) e terra, e seus múltiplos usos. A presente tese foi desenvolvida com base neste contexto, apresentando e aplicando metodologias integradoras, seja na ecologia de paisagem (EP), seja na relação entre os ambientes dulcícola e terrestre. O objetivo principal deste trabalho foi o desenvolvimento de processos para planejamento ambiental em BHs, através do diagnóstico, compreensão e análise do funcionamento e dinâmica da paisagem e de ecossistemas de rios e córregos, apoiados no uso de geotecnologias. De acordo com os resultados obtidos, a BHGM ocupa uma área de 1260,36 km e 204,69 km de perímetro. É uma bacia com forma mais alongada que circular (KC = 1,6144e IC =0,4747 km/km) que indica uma menor susceptibilidade a enchentes em condições normais de precipitação exceto em eventos de intensidades anômalas. O mapeamento base (2007) realizado indicou que a bacia possuía 34,86% de uso antrópico e 64,04 % de remanescente florestal. Os dados de fitofisionomia potencial indicaram predominância da classe Florestas Ombrófila Densa Submontana (40%) e de Terras Baixas (39%). Foram estabelecidas para bacia 269 unidades de paisagem (integração da geomorfologia, geologia, fitofisionomia e uso da terra e cobertura vegetal (2007)) que junto com os dados de métrica de paisagem constituíram a proposta integrativa da tese para ecologia de paisagem. Em relação à qualidade ambiental foram adotados o índice de avaliação visual (IAV), o índice multimétrico físico-químico bacteriológico e o índice biótico estendido (IBE). A comparação entre estes índices demonstrou a confirmação entre os seus resultados para a maioria dos pontos amostrados nas áreas de referência e de pelo menos dois índices para os pontos intermediários e impactados. Foram propostos também dois cenários para a bacia: um considerando as condicionantes e medidas compensatórias vinculadas à licença prévia do complexo petroquímico do Estado do Rio de Janeiro (COMPERJ); e outro, sem considerar estas condições. O primeiro indicou a realização da restauração ecológica, seguindo as diretrizes do mapa síntese, integrada para restauração da paisagem.

Reproductive biology of carpenter seabream (Argyrozona argyrozona) (Pisces: Sparidae) in a marine protected area

The carpenter seabream (Argyrozona argyrozona) is an endemic South African sparid that comprises an important part of the handline fishery. A three-year study (1998−2000) into its reproductive biology within the Tsitsikamma National Park revealed that these fishes are serial spawning late gonochorists. The size at 50% maturity (L50) was estimated at 292 and 297 mm FL for both females and males, respectively. A likelihood ratio test revealed that there was no significant difference between male and female L50 (P>0.5). Both monthly gonadosomatic indices and macroscopically determined ovarian stages strongly indicate that A. argyrozona within the Tsitsikamma National Park spawn in the astral summer between November and April. The presence of postovulatory follicles (POFs) confirmed a six-month spawning season, and monthly proportions of early (0−6 hour old) POFs showed that spawning frequency was highest (once every 1−2 days) from December to March. Although spawning season was more highly correlated to photoperiod (r = 0.859) than temperature (r = −0.161), the daily proportion of spawning fish was strongly correlated (r= 0.93) to ambient temperature over the range 9−22oC. These results indicate that short-term upwelling events, a strong feature in the Tsitsikamma National Park during summer, may negatively affect carpenter fecundity. Both spawning frequency and duration (i.e., length of spawning season) increased with fish length. As a result of the allometric relationship between annual fecundity and fish mass a 3-kg fish was calculated to produce fivefold more eggs per kilogram of body weight than a fish of 1 kg. In addition to producing more eggs per unit of weight each year, larger fish also produce significantly larger eggs.

Nineteenth-century Ship-based Catches of Gray Whales, Eschrichtius robustus, in the Eastern North Pacific

The 19th century commercial ship-based fishery for gray whales, Eschrichtius robustus, in the eastern North Pacific began in 1846 and continued until the mid 1870’s in southern areas and the 1880’s in the north. Henderson identified three periods in the southern part of the fishery: Initial, 1846–1854; Bonanza, 1855–1865; and Declining, 1866–1874. The largest catches were made by “lagoon whaling” in or immediately outside the whale population’s main wintering areas in Mexico—Magdalena Bay, Scammon’s Lagoon, and San Ignacio Lagoon. Large catches were also made by “coastal” or “alongshore” whaling where the whalers attacked animals as they migrated along the coast. Gray whales were also hunted to a limited extent on their feeding grounds in the Bering and Chukchi Seas in summer. Using all available sources, we identified 657 visits by whaling vessels to the Mexican whaling grounds during the gray whale breeding and calving seasons between 1846 and 1874. We then estimated the total number of such visits in which the whalers engaged in gray whaling. We also read logbooks from a sample of known visits to estimate catch per visit and the rate at which struck animals were lost. This resulted in an overall estimate of 5,269 gray whales (SE = 223.4) landed by the ship-based fleet (including both American and foreign vessels) in the Mexican whaling grounds from 1846 to 1874. Our “best” estimate of the number of gray whales removed from the eastern North Pacific (i.e. catch plus hunting loss) lies somewhere between 6,124 and 8,021, depending on assumptions about survival of struck-but-lost whales. Our estimates can be compared to those by Henderson (1984), who estimated that 5,542–5,507 gray whales were secured and processed by ship-based whalers between 1846 and 1874; Scammon (1874), who believed the total kill over the same period (of eastern gray whales by all whalers in all areas) did not exceed 10,800; and Best (1987), who estimated the total landed catch of gray whales (eastern and western) by American ship-based whalers at 2,665 or 3,013 (method-dependent) from 1850 to 1879. Our new estimates are not high enough to resolve apparent inconsistencies between the catch history and estimates of historical abundance based on genetic variability. We suggest several lines of further research that may help resolve these inconsistencies.

Assessment of the Distribution and Abundance of Coastal Sharks in the U.S. Gulf of Mexico and Eastern Seaboard, 1995 and 1996

During 1995 and 1996, the National Marine Fisheries Service (NMFS), conducted pilot studies to develop survey methodology and a sampling strategy for assessment of coastal shark populations in the Gulf of Mexico and western North Atlantic. Longline gear similar to that used in the commercial shark fishery was deployed at randomly selected stations within three depth strata per 60 nautical mile gridf rom Brownsville, Tex. to Cape Ann, Mass. The survey methodology and gear design used in these surveys proved effective for capturing many of the small and large coastal sharks regulated under the auspices of the 1993 Fisheries Management Plan (FMP) for Sharks oft he Atlantic Ocean. Shark catch rates, species composition, and relative abundance documented in these pilot surveys were similar to those reported from observer programs monitoring commercial activities. During 78 survey days, 269 bottom longline sets were completed with 879 sharks captured.