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1.
In the north-western Pacific, we found that locations of early fishing grounds of Pacific saury, Cololabis saira, are affected by two factors, the size composition and the meridional shift of the offshore Oyashio Front (OOF). Early fishing grounds are formed nearshore from the central Kuril Islands to Hokkaido in northward OOF years. In southward OOF years, they are far from the coasts. There also exists a tendency that early fishing grounds are formed south-westward (north-eastward) in years when a large (medium or small) size class of saury is dominant and when the OOF shifts north (south). These results support the hypothesis that saury migration is considerably influenced by oceanographic conditions, and that a large size class of saury leads to migration that can reach the vicinity of Japan early in the fishing season. 相似文献
2.
Interdecadal decrease in potential fishing areas for Pacific saury off the southeastern coast of Hokkaido,Japan 
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下载免费PDF全文 We examined interdecadal variations in potential fishing grounds for the Pacific saury, Cololabis saira, off the southeastern coast of Hokkaido, Japan, for the early fishing season of August–September. We applied linear trend analysis to a time series of several oceanographic variables for 1993–2014. Trends in the appearance frequency of sea surface temperatures (SST) of 12–18 °C during August–September indicated an interdecadal reduction in the potential fishing area off the Hokkaido coast. There were localized significant increases of both SST and the sea level anomaly along the Kuril–Kamchatka Trench off the Hokkaido coast. The localized trends coincided with decadal decreases of satellite‐based chlorophyll concentrations after 2002. Analysis of mesoscale eddies revealed that the localized trends were related to clockwise (counterclockwise) eddies that appeared more frequently (less frequently) near the trench in recent years. Moreover, the Oyashio transport on the slope between the coast and the trench decreased significantly and completely disappeared in some recent summers. Interactions between the Oyashio and mesoscale eddies resulted in an interdecadal shift in the cold‐water intrusion along the main stream of the Oyashio from the along‐slope direction to the offshore direction in the upstream region of the Hokkaido coast, and large areas of favorable potential fishing grounds near the Hokkaido coast have disappeared in recent years. 相似文献
3.
Wen-Bin Huang 《Fisheries Science》2010,76(1):21-31
The monthly and geographical abundances and size compositions of Pacific saury were compared between the high-seas and coastal fishing grounds in the northwestern Pacific during 2000–2005 based on Taiwanese fishery data. The large-sized saury was dominant (44.3–71.4% of the catch) in the beginning of the fishing season, while the medium-sized saury followed and dominated from September to the end of the fishing season (70.1–92.4% of the catch). In the high seas, the total catch per unit effort (CPUE) (about 71.2% of the mean coastal value) and both the large- (about 55.0%) and medium-sized saury CPUEs (about 81.8%) were significantly smaller than those in the coastal waters. The mean proportions of the large- and medium-sized saury in the high-seas catch were about 86.6 and 107.0% of the coastal values, respectively. CPUEs for the total catch and the catch of medium-sized saury varied in a highly consistent way. The total and medium-sized CPUEs were negatively correlated with the sea-water temperature. When the temperature was held the same statistically, the total and medium-sized CPUEs were larger in the shoreward, southward, and shallower waters of the fishing grounds, while the large-sized CPUE was larger in the shoreward waters. 相似文献
4.
北太平洋秋刀鱼生活史和资源渔场研究进展 总被引:1,自引:0,他引:1
北太平洋秋刀鱼(Cololabis saira)是中国重要的远洋渔业鱼种,被北太平洋渔业委员会列为优先管理的种类之一。本文回顾和概述了秋刀鱼生活史、种群动力、资源渔场和栖息地适宜性等方面的研究进展,分析和展望了秋刀鱼生长生物学、繁殖生物学、洄游、资源波动和栖息地适宜性等研究现状和未来的发展趋势。主要建议包括:基于耳石微化学信息和最适环境参数的时空分布变动,探索秋刀鱼潜在的洄游路径和模式;建立繁殖栖息地适应性指数模型,分析海洋气候对秋刀鱼补充群体潜在栖息地的影响;建立秋刀鱼集群栖息地适宜性指数模型,开发秋刀鱼渔场渔情速报系统。本文的概述和分析旨在为秋刀鱼渔业资源等相关研究提供参考。 相似文献
5.
Seasonal potential fishing ground prediction of neon flying squid (Ommastrephes bartramii) in the western and central North Pacific 下载免费PDF全文
下载免费PDF全文 Irene D. Alabia Sei‐Ichi Saitoh Robinson Mugo Hiromichi Igarashi Yoichi Ishikawa Norihisa Usui Masafumi Kamachi Toshiyuki Awaji Masaki Seito 《Fisheries Oceanography》2015,24(2):190-203
We explored the seasonal potential fishing grounds of neon flying squid (Ommastrephes bartramii) in the western and central North Pacific using maximum entropy (MaxEnt) models fitted with squid fishery data as response and environmental factors from remotely sensed [sea surface temperature (SST), sea surface height (SSH), eddy kinetic energy (EKE), wind stress curl (WSC) and numerical model‐derived sea surface salinity (SSS)] covariates. The potential squid fishing grounds from January–February (winter) and June–July (summer) 2001–2004 were simulated separately and covered the near‐coast (winter) and offshore (summer) forage areas off the Kuroshio–Oyashio transition and subarctic frontal zones. The oceanographic conditions differed between regions and were regulated by the inherent seasonal variability and prevailing basin dynamics. The seasonal and spatial extents of potential squid fishing grounds were largely explained by SST (7–17°C in the winter and 11–18°C in the summer) and SSS (33.8–34.8 in the winter and 33.7–34.3 in the summer). These ocean properties are water mass tracers and define the boundaries of the North Pacific hydrographic provinces. Mesoscale variability in the upper ocean inferred from SSH and EKE were also influential to squid potential fishing grounds and are presumably linked to the augmented primary productivity from nutrient enhancement and entrainment of passive plankton. WSC, however, has the least model contribution to squid potential fishing habitat relative to the other environmental factors examined. Findings of this work underpin the importance of SST and SSS as robust predictors of the seasonal squid potential fishing grounds in the western and central North Pacific and highlight MaxEnt's potential for operational fishery application. 相似文献
6.
西北太平洋公海7~9月秋刀鱼渔场分布及其与水温的关系 总被引:7,自引:1,他引:7
根据2003~2005年7~9月西北太平洋公海秋刀鱼生产数据和水温遥感数据,对西北太平洋公海秋刀鱼作业渔场分布及其与表温和上层水温结构的关系进行了分析。结果认为,随着时间的推移,7~9月西北太平洋公海秋刀鱼渔场重心有从西南向东北变动的趋势;各月产量重心处水温结构有较大差异,9月混合层深度较7月和8月有所加深,渔场也较后者向北移动;各月高产渔区0~15m温度梯度都在0.25℃/m以下,0~40m温度梯度在0.1℃/m左右,40~60m温度梯度在0.25~0.42℃/m之间。灰色关联度分析表明,渔区月产量受到众多因素的影响,其中捕捞努力量、渔区平均日产量和表温是其主要影响因子,对渔区平均日产量影响较大的有表温、0~15m温度梯度、0~40m温度梯度和月份,其关联度都在0.80以上。 相似文献
7.
YUGO SHIMIZU KAZUTAKA TAKAHASHI SHIN-ICHI ITO SHIGEHO KAKEHI HIROAKI TATEBE ICHIRO YASUDA AKIRA KUSAKA TOMOHARU NAKAYAMA 《Fisheries Oceanography》2009,18(5):312-327
The lateral transport of organic carbon in large grazing copepods ( Neocalanus cristatus, Neocalanus flemingeri, Neocalanus plumchrus and Eucalanus bungii ) from the Oyashio area to the mixed water region (MWR) by the coastal Oyashio intrusion was estimated using the data of VMPS (vertical multiple plankton sampler) and 1500 dbar-referred geostrophic transport from the CTD (conductivity temperature depth sensor) data of five cruises during June 2001 to April 2002 on a repeat observation section OICE (Oyashio Intensive observation line off Cape Erimo), which extends southeastward from Hokkaido Island, Japan. The transport to MWR by the coastal Oyashio intrusion was estimated to be 5.3 × 1011 g C for the four species. Data from profiling floats also indicated that the copepods were advected from OICE to MWR by the coastal Oyashio intrusion within about 2 months. This transport is considered to be one of the significant sources of organic carbon in MWR as it is larger than the amount of large zooplankton consumed by Pacific saury ( Cololabis saira ) in MWR, one of the dominant copepod predators in this region. 相似文献
8.
Juliano Lauser Coletto Marcelo Peres Pinho Lauro Saint Pastous Madureira 《Fisheries Oceanography》2019,28(1):82-93
Skipjack tuna (Katsuwonus pelamis) ranks third among marine resources that sustain global fisheries. This study delimits the spatiotemporal habitat of the species in the south‐western Atlantic Ocean, based on operational oceanography. We used generalized additive models (GAMs) and catch data from six pole‐and‐line fishing vessels operating during 2014 and 2015 fishing seasons to assess the effect of environmental variables on catch. We also analysed Modis sensor images of sea surface temperature (SST) and surface chlorophyll‐α concentration (SCC) to describe fishing ground characteristics in time and space. Catch was positively related to thermocline depth (24–45 m), SST (22–24.5°C), SCC (0.08–0.14 mg/m³) and salinity (34.9–35.8). Through SST images, we identified that thermal fronts were the main surface feature associated with a higher probability to find skipjack. Also, we state that skipjack fishery is tightly related to shelf break because bottom topography drives the position of fronts in this area. Ocean colour fronts and plankton enrichment were important proxies, accessible through SCC, used to delineate skipjack fishing grounds. Catch per unit effort (CPUE) was higher towards summer (median 14 t/fishing day) due to the oceanographic characteristics of the southern region. High productivity in this sector of the Brazilian coast defines the main skipjack feeding areas and, as a consequence, the greatest abundance and availability for fishing. 相似文献
9.
北太平洋公海秋刀鱼渔场初步分析 总被引:5,自引:1,他引:4
根据2004年7~11月“中远渔1号”调查船北太平洋公海秋刀鱼渔场探捕调查的生产情况,对秋刀鱼渔场进行分析。结果发现:①秋刀鱼渔场可根据渔场位置分为北部渔场和南部渔场,北部渔场范围为44°~45°N、156°~158°E,南部渔场范围为41°~42°N、150°~151°E,南部渔场的分布范围小于北部渔场。②秋刀鱼的生产以11月份生产最好,平均日产量达22.7t,其中最高日产量为60.42t;8月份的秋刀鱼生产最差,平均日产量为2.95t,与2003年的12.05t反差较大,主要是由于受到渔场环境因子变化的影响,鱼发位置偏至俄罗斯专属经济区内的缘故。③秋刀鱼舷提网作业平均日放网次数达7.6次,最高1天放网次数达到16次,而最高网次产量为11.05t。④秋刀鱼渔获组成以中小型鱼为主,占80%以上,除7月份渔获中特大型秋刀鱼占有较大比例外,其余月份很少有特大级秋刀鱼。⑤在相近的渔场位置,秋刀鱼个体随着生产月份的推迟,鱼体呈变小的趋势。 相似文献
10.
The relationship between the skipjack tuna (Katsuwonus pelamis) fishery and seasonal temperature variability in the south-western Atlantic 总被引:1,自引:0,他引:1
H. A. Andrade 《Fisheries Oceanography》2003,12(1):10-18
The spatio‐temporal distribution of tuna fishing effort has been related to oceanographic circulation and features in several seas of the world. Understanding the relationship between environmental variables and fishery resource dynamics is important for management decisions and to improve fishery yields. The relationship between sea temperature variability and the pole‐and‐line skipjack tuna (Katsuwonus pelamis) fishery in the south‐western Atlantic Ocean was investigated in this work. Data from logbooks, satellite images (sea surface temperature), and oceanographic surveys were used in the analyses. Skipjack are caught in warm tropical waters of the Brazil Current (BC). The north–south displacement of fishing effort was strongly associated to seasonal variation of the surface temperature, which was coupled to the tropical BC flow. Oceanographic fronts from autumn to spring and a shallow thermocline in summer probably induces the aggregation of skipjack schools over the shelfbreak, favouring fishing operations. Hypotheses are proposed to explain the relationship between peaks of fishing events and the presence of topographic peculiarities of the shelfbreak. 相似文献
11.
In order to establish the migration route of Pacific saury Cololabis saira, we measured the radius of otolith annual rings (ROA) in fish collected from areas off the Japanese coast up to 165°W in June and July (pre-fishing season) and from fishing grounds in August?CNovember (fishing season). The average ROA for six sea areas that each spanned 10° of longitude sampled during the pre-fishing season were compared with data obtained during each month of the fishing season. The average ROA decreased from west to east and also decreased monthly from August to November. The average ROA of fish caught after October at the peak of the fishing season was equivalent to that of the fish caught in the areas east of 160°E or 170°E. We conclude that Pacific saury caught by Japanese fishing vessels during the peak of the fishing season migrate from an area east of 160°E. 相似文献
12.
Predicting the spatio‐temporal distributions of pelagic sharks in the western and central North Pacific 下载免费PDF全文
下载免费PDF全文 Mikihiko Kai James T. Thorson Kevin R. Piner Mark N. Maunder 《Fisheries Oceanography》2017,26(5):569-582
Spatio‐temporal modeling estimates a species distribution function that represents variation in population density over space and time. Recent studies show that the approach may precisely identify spatial hotspots in species distribution, but have not addressed whether seasonal hotspots are identifiable using commonly available fishery data. In this study, we analyzed the seasonal spatio‐temporal distribution of pelagic sharks in the western and central North Pacific using fishery catch rates and a generalized linear mixed model with spatio‐temporal effects. Different spatial distribution patterns were observed between two shark species. The hotspots of shortfin mako (SFM) appeared in the vicinity of the coastal and offshore waters of Japan and the Kuroshio‐Oyashio transition zone (TZ), whereas the hotspots of blue shark (BSH) were widely distributed in the areas from the TZ to the waters of the Emperor Seamount Chain. Shortfin mako distribution changes seasonally with clear north‐south movement, which follows higher sea surface temperatures (SST). However, preferred spring and summer water temperature was still colder than those in fall and winter, but not as cold as for BSH, which did not show seasonal north‐south movement. BSH exhibits seasonal east‐west movement apparently unrelated to temperature. The spatial fishing effort by season generally follows the seasonal movement of temperature possibly making SFM more vulnerable to the fishery than BSH. These findings could be used to reduce the capture risk of bycatch sharks and to better manage the spatial distribution of fishing for targeted sharks. 相似文献
13.
Oceanographic factors affecting interannual recruitment variability of Pacific saury (Cololabis saira) in the central and western North Pacific 下载免费PDF全文
下载免费PDF全文 Taro Ichii Haruka Nishikawa Kedarnath Mahapatra Hiroshi Okamura Hiromichi Igarashi Mitsuo Sakai Satoshi Suyama Masayasu Nakagami Miyako Naya Norihisa Usui Yoshihiro Okada 《Fisheries Oceanography》2018,27(5):445-457
Pacific saury (Cololabis saira) has a short life span of 2 years and tends to exhibit marked population fluctuations. To examine the importance of sea surface temperature (SST) and mixed layer depth (MLD) as oceanographic factors for interannual variability of saury recruitment in early life history, we analyzed the relationship between abundance index (survey CPUE (catch per unit of effort)) of age‐1 fish and the oceanographic factors in the spawning and nursery grounds of the previous year when they were born, for the period of 1979–2006, in the central and western North Pacific. Applying the mixture of two linear regression models, the variability in the survey CPUE was positively correlated with previous year's winter SST in the Kuroshio Recirculation region (KR) throughout the survey period except 1994–2002. In contrast, the survey CPUE was positively correlated with the previous year's spring MLD (a proxy of spring chlorophyll a (Chl‐a) concentration) in the Kuroshio‐Oyashio Transition and Kuroshio Extension (TKE) during 1994–2002. This period is characterized by unusually deep spring MLD during 1994–1997 and anomalous climate conditions during 1998–2002. We suggest that saury recruitment variability was generally driven by the winter SST in the KR (winter spawning/nursery ground), or by the spring Chl‐a concentration (a proxy of prey for saury larvae) in the TKE (spring spawning/nursery ground). These oceanographic factors could be potentially useful to predict abundance trends of age‐1 saury in the future if the conditions leading to the switch between SST and MLD as the key input variable are elucidated further. 相似文献
14.
Hashimoto Midori Kidokoro Hideaki Suyama Satoshi Fuji Taiki Miyamoto Hiroomi Naya Miyako Vijai Dharmamony Ueno Yasuhiro Kitakado Toshihide 《Fisheries Science》2020,86(3):445-456
Fishery-independent surveys using sea surface trawl nets for Pacific saury Cololabis saira in the western North Pacific since 2003 have enabled the investigation of their annual distribution patterns and total biomass during June and July, prior to the main fishing season in Japan. We compared biomass estimates and their associated variances derived based on five different post-stratification approaches in a swept area method, and then observed that these approaches have little effect on biomass estimates and their precision, owing to well-organized survey designs and homogeneously allocated sampling stations. We were able to utilize decreasing biomass estimates for 15 years as an essential abundance index in the ongoing stock assessment. Notably, examination based on stratification along with longitudinal survey lines indicated that the estimated biomass had decreased in the western survey area, resulting in an eastward shift in the gravity center of Pacific saury distribution after 2010. We recommend biomass estimation in an east–west direction based on longitudinal stratification as an effective measure to develop population dynamics models which reflect westward migration into the fishing grounds around Japanese coastal waters, and to forecast the expected catch during the subsequent fishing period.
相似文献15.
Satellite‐based oceanographic data of sea surface temperature (SST), sea surface chlorophyll‐a concentration (SSC), and sea surface height anomaly (SSHA) together with catch data were used to investigate the relationship between albacore fishing ground and oceanographic conditions and also to predict potential habitats for albacore in the western North Pacific Ocean. Empirical cumulative distribution function and high catch data analyses were used to calculate preferred ranges of the three oceanographic conditions. Results indicate that highest catch per unit efforts (CPUEs) corresponded with areas of SST 18.5–21.5°C, SSC 0.2–0.4 mg m?3, and SSHA ?5.0 to 32.2 cm during the winter in the period 1998–2000. We used these ranges to generate a simple prediction map for detecting potential fishing grounds. Statistically, to predict spatial patterns of potential albacore habitats, we applied a combined generalized additive model (GAM) / generalized linear model (GLM). To build our model, we first constructed a GAM as an exploratory tool to identify the functional relationships between the environmental variables and CPUE; we then made parameters out of these relationships using the GLM to generate a robust prediction tool. The areas of highest CPUEs predicted by the models were consistent with the potential habitats on the simple prediction map and observation data, suggesting that the dynamics of ocean eddies (November 1998 and 2000) and fronts (November 1999) may account for the spatial patterns of highest albacore catch rates predicted in the study area. The results also suggest that multispectrum satellite data can provide useful information to characterize and predict potential tuna habitats. 相似文献
16.
A centurial development of the North Sea fish megafauna as reflected by the historical Swedish longlining fisheries 下载免费PDF全文
下载免费PDF全文 M Cardinale V Bartolino H Svedäng A Sundelöf R T Poulsen M Casini 《Fish and Fisheries》2015,16(3):522-533
Historically, to compensate for declining catches, fishers have usually shifted from species characterized by high catch rate onto less easily caught species or have moved into new fishing grounds. Such shifts are poorly documented for areas with a long history of exploitation (i.e. North Sea) as they occurred long time before the start of the regular assessments of the marine resources. The Swedish longline fisheries in the Kattegat‐Skagerrak and North Sea have a long history that spans over several centuries. These fisheries have historically targeted large demersal predator fish as ling (Molva molva), cod (Gadus morhua), Atlantic halibut (Hippoglossus hippoglossus) and skates (mainly Dipturus spp.). In this study, data from the Swedish longline fisheries from 1859 to 1960 have been collated. The data show that the geographical expansion of the fishery was extensive. At the turn of the 20th century, offshore longlining became concentrated north and west of the Shetlands and Hebrides, and after the WWII, the fishery expanded to Iceland and Rockall. In the offshore fishery, CPUE for the main target species, ling, remained stable, whereas for the other species, with the exception of tusk (Brosme brosme), CPUE showed a dramatic decline over time. In contrast, in the coastal longlining fishery, severe declines were revealed for all major target species except cod. We argue that the constant search for new fishing grounds in the Northeast Atlantic reflects a dwindling resource, where the fishermen kept the catch rates of ling high by travelling to more and more distant fishing grounds. 相似文献
17.
对东海区拖虾作业休渔期的商榷 总被引:8,自引:4,他引:4
根据对历年来东海虾类资源调查和社会调查资料分析 ,提出实施拖虾作业休渔措施的必要性。分析认为 :虾类资源是多种类组成的捕捞对象 ,不同种类生态属性不同、分布海域不同、繁殖期和幼虾出现高峰期不同、渔场和渔期不同等 ,指出拖虾作业休渔期不宜搞一刀切 ,应实行分区管理。北部 (31°0 0′N以北 )以广温广盐种类为主 ,宜实行伏季休渔 ;而南部 (31°0 0′N以南 )以高温高盐种类为主 ,宜在 4~ 5月份休渔。为有利于管理 ,可把拖虾休渔管理权下放给各省 ,由各省根据本省的实际情况确定具体的休渔时间。 相似文献
18.
ATSUSHI KAWABATA AKIHIKO YATSU YASUHIRO UENO SATOSHI SUYAMA YUTAKA KURITA 《Fisheries Oceanography》2006,15(2):113-124
The spatial distribution of Todarodes pacificus in and near the Kuroshio/Oyashio Transition Zone during its northward migration was examined by comparative surveys using two types of mid‐water trawl net and supplementary squid jigging from June to July 2000. The vertical and horizontal distribution patterns varied for different body sizes in relation to the oceanographic structure. Todarodes pacificus of 1–20 cm dorsal mantle length (ML) were widely distributed from the coastal waters of Japan to near 162°E longitude, probably due to transport by the Kuroshio Extension (KE). Todarodes pacificus smaller than 10 cm ML were mainly distributed in temperate surface layers at sea surface temperatures (SSTs) >15°C near the KE meander probably because of their poor tolerance to lower temperatures and limited swimming ability. Squid of 10–15 cm ML were distributed in the offshore waters of 10–15°C SST and in the coastal waters of northern Honshu, and underwent diel vertical migrations between the sea surface at night and deeper layers during the daytime. Squid larger than 15 cm ML were distributed in the coastal feeding grounds of northern Honshu and Hokkaido until they began their southward spawning migration. They also underwent diel vertical migrations, but remained deeper at night than the squid of 10–15 cm ML; this migration pattern closely matched that of their main prey such as euphausiids. We concluded that as T. pacificus grow, they shift their distribution range from the temperate surface layer around the KE toward the colder deeper layers, above 5°C, in the Oyashio and coastal areas. 相似文献
19.
南海南部渔场是广西拖网渔船在南海外海的传统作业区域之一。然而,近年来该海域渔业涉外事故频发,广西渔船损失惨重。为了规避涉外事故,广西拖网渔船不得不频频中断正常生产,转移到南海外海其它涉外风险较低的渔场作业。2013年5月以后,在南海外海生产的广西拖网渔船陆续撤出南海南部,至今未恢复生产。本文采用南海捕捞信息动态采集网络和信息渔船2013年的生产记录,通过统计及对比,分析拖网渔船从南海南部转移后面临的困境和成因。结果表明,渔船转移到6°N以北的南海外海渔场生产,单位捕捞努力量渔获量(CPUE)减少31.25%、优质鱼类所占的比例明显下降、全部航次亏损,生产难以为继。目前南海南部的生产态势明显不利于南海外海渔业的发展。本文提出恢复和坚持南海南部生产是南海外海拖网渔业发展的基础,有关部门应加强渔场巡航护渔、组织综合编队生产及加大对渔船开发南海南部渔业资源的支持力度。为了进一步发展南海外海拖网生产,建议在南海南部探索试验共同渔区模式。 相似文献
20.
南极磷虾作为南极生态系统中的关键物种,磷虾渔场时空演变规律对于磷虾海洋生态功能影响及其资源管理十分重要。本研究利用我国磷虾渔业生产数据,按照月份组合,针对南极半岛北部磷虾渔业,采用点模式方法,利用3个空间因子:经度、纬度和离岸距离,获得各月磷虾资源分布最佳点模式模型和模型的方差分析结果,并以最佳点模式模型推知可能潜在的渔场分布。结果显示,(1)12月磷虾渔场离岸距离最大(为45 km),随后,渔场逐渐向南设得兰群岛岸线逼近,至3月时渔场离岸最近,3月之后,磷虾渔场逐渐远离海岸线,4月和5月渔场离岸距离大约在13 km左右。(2)点模式模型的方差分析结果发现,12月,1月,3月和4月最优点模式模型对模型的方差解释率分别为59%、60%、57%和68%,空间因子能够较好拟合磷虾渔场分布,而2月和5月,空间点模型对总体方差的解释率分别为38%和32%。(3)夏季12—1月,磷虾渔场分布在乔治王岛北部;2月,在利文斯顿岛周围形成第2个渔场,以及布兰斯菲尔德海峡中部形成第3个渔场;3—5月渔场基本分布在布兰斯菲尔德海峡沿南极半岛岸线平行方向分布。研究表明,南极半岛北部磷虾渔场的离岸距离远近与该海域海冰边界消融和生长的规律相吻合;基于空间因子点模式模型在大部分月份均能较好地拟合磷虾渔场的时空演变规律,再配合单位捕捞努力量渔获量(CPUE)数据,可以作为探测磷虾群热区的潜在手段。 相似文献