Red King(红王)研究综述
Red King 红王 - The Atlantic cod (Gadus morhua) and red king crab (Paralithodes camtschaticus) processing wastes are massive and unutilized in the Murmansk region of Russia. [1] In addition to these two influential biographical traditions, anthropologists in Britain developed the genealogical approach to investigating sacred kingship. [2] Red king crab is a large commercially important species harvested both in their native areas (North Pacific) and in the area of its introduction (Barents Sea). [3] Most HCA malates in mustard (Barbarossa) and all HCA malates in mizuna (red kingdom)/ radish (red Rambo, organic) were significantly decreased under most treatments, whereas all malates were overall increased under combined lighting in radish (red Rambo), mustard (Garnet Giant), mizuna (organic), Pac choi (red Pac) and mustard (Scarlet Frills). [4] When applied to red king crab (RKC; Paralithodes camtschaticus) in the same fishery, those metrics had limited success. [5] When Napoleonic forces invaded Spain and captured King Ferdinand VII in 1808, the question of who ruled whom pushed the issue of independence forward. [6] Sensitivity analysis demonstrated that the studies by Cui Tang and Alfred King Yin Lam in LNM impacted the pooled OR. [7] We compared KingVision channelled blade with a non-Channelled videolaryngoscope for intubation times in a simulated COVID-19 intubation scenario by both anaesthesiologists and non-anaesthesiologists. [8] Red king crab (Paralithodes camtschaticus) and snow crab (Chionoecetes opilio) are deep-sea crustaceans widely distributed in the North Pacific and Northwest Atlantic Oceans. [9] It is proposed to ensure the rotation of the trolley frame in the vertical plane by reducing the body supports to two and to use a low-lowered kingpin, to equip the trolleys with pneumatic spring suspension in the form of two-corrugated shells installed in series with shortened spring suspension springs. [10] Studies on the red king and snow crab invasions in the Barents Sea from multiple disciplinary angles showcase complex social, economic, and ecological interconnections that are transforming communities and ecosystems. [11] Since the early 1980s, a large number of studies on enzymes from the red king crab hepatopancreas were conducted. [12] A parasitic dinoflagellate of the genus Hematodinium was found off the Pacific coast of Kamchatka in three species of crabs: red king crab Paralithodes camtschaticus, tanner crab Chionoecetes bairdi, and spiny king crab Paralithodes brevipes. [13] Moreover, these exegetical strategies reveal particular political underpinnings of late medieval theology, including anti-Judaism, sacred kingship, and crusader ideology. [14] The information on fatty acid profiles in different tissues of the Barents Sea red king crab (Paralithodes camtschaticus) is scarce and fragmentary. [15] In this work, we have shown that the hepatopancreas homogenate of the red king crab has a hyaluronidase activity that is an order of magnitude higher than its commercial counterpart. [16] For comparison, we also assembled the genomes of the long-tailed marine-living ornate spiny lobster, Panulirus ornatus , and the short-tailed marine-living red king crab, Paralithodes camtschaticus. [17] The red king crab (RKC, Paralithodes camtschaticus) is a highly-valued decapod species of key importance for the economy of the northern Norwegian coastal region. [18] , Big one, Turbo, Solex, Hunza, Easy Golem, Express Golem, Red King, Golem, Gioele, Big mama and Happy Golem. [19] Live transport of red king crab from the fishing grounds to the market is an activity that is increasing and the future sustainability of this practice depends on maintaining optimal animal welfare during transport. [20] Simple Summary New biodiversity records are important for expanding our knowledge about the symbiotic associations of the commercially important red king crab. [21] The Atlantic cod (Gadus morhua) and red king crab (Paralithodes camtschaticus) processing wastes are massive and unutilized in the Murmansk region of Russia. [22] Born into a farming family, John Harper identified a number of influential figures in his formal education, including his inspirational school master Wilfred Kings, and the plant ecologists Roy Clapham (FRS 1959) and Jack Harley (FRS 1964) and animal ecologists Charles Elton (FRS 1953) and George Varley during his university education at Magdalen College, Oxford. [23] We develop a bioeconomic model for the management of the Barents Sea red king crab (RKC) fishery, which is a shared stock between Russia and Norway. [24] It shows that the government of King Wen was extoled by chiefdoms; while people in Zhou considered King Wen as the founder of their state. [25] Red king crab (Paralithodes camtschaticus) has become a valuable resource in the Norwegian fishery. [26] The origin of this office and its etymology is traced back to ancient Greece and thence through the Byzantine and Arab worlds to the newly conquered Kingdom of Valencia. [27] In this study relative ecological risk assessment was done for future potential introductions of three species in the Canadian Arctic: periwinkle Littorina littorea, soft shell clam Mya arenaria and red king crab Paralithodes camtschaticus. [28] This article analyzes Bloch’s work in relation to the theories of the so-called “sacred kingship”, especially the one proposed by J. [29] Specifically, we reared kingfish to 21 days post hatching (dph) in a fully crossed 2 × 2 experimental design comprising current-day average summer temperature (21°C) and seawater pCO2 (500 μatm CO2) and elevated temperature (25°C) and seawater pCO2 (1,000 μatm CO2). [30] Taking the above-mentioned into consideration, the aim of the present paper is to present in more detail the way, how the relevant data of the treaties was covered by the official propaganda body of the Imperial Tsarist Russia in the conquered Kingdom of Poland, moreover, in a period of an enormous oscilliation of an amplitude of prestige of the Tsar’s authority caused both by the aftermath of the Revolution of 1848 and Russia’s defeat in the Crimean War. [31] The Barents Sea Red King Crab, a simultaneously profitable and invasive species with different net benefits across stakeholders, provides the empirical evidence. [32] This dilution of selection by inactivity enhances the role of drift, leading to increased polymorphism and accelerated evolution, which we call the Red King process. [33] This paper studies the reception of a sample of readers of the book 1808: how a crazy queen, a scared king and a corrupt court fooled Napoleon and changed the history of Portugal and Brazil, by Laurentino Gomes. [34] Total stock of red king crab in the bay was assessed as 4750 individuals. [35] I use Ernst Kantorowicz’s (1957, reprinted 2016) political theology to demonstrate that the Vie both resonates with and qualifies the concept of Christ-centered kingship and Law-centered kingship in twelfth-century England. [36] The study area covers a latitudinal gradient of temperature and different levels of predator pressure from the edible crab (Cancer pagurus) and the red king crab (Paralithodes camtschaticus). [37] This is called the Red King effect. [38] Crabs abundance also had positive dynamics obviously because of the effect of protective measures for red king crab in the 2009–2012, though its biomass continued to grow even after restoring the commercial landings. [39] Methods: We compare the rates of fishing in high-wind conditions in the Bristol Bay red king and the Bering Sea snow/tanner crab fisheries pre- and post-rationalization. [40] This study focused on hydrolysis of cosmetic fillers hyaluronic acid (HA) and kinetics of the HA hydrolysis using the homogenate of the red king crab hepatopancreas. [41] One hundred king coconut palms from five different areas (Pannala, Colambage-ara, Kadugannawa, Anuradhapura and Marandawila) were used in the study and SSR markers were developed for all hundred individuals with ten SSR primer pairs using DNA extracted from immature leaves. [42] The cultural Red King hypothesis predicts that differentials in group size may lead to inequitable outcomes for minority groups even in the absence of explicit or implicit bias. [43]在俄罗斯摩尔曼斯克地区,大西洋鳕鱼 (Gadus morhua) 和红帝王蟹 (Paralithodes camtschaticus) 加工废料非常庞大且未被利用。 [1] 除了这两个有影响力的传记传统之外,英国的人类学家还开发了研究神圣王权的家谱方法。 [2] 红帝王蟹是一种在其原生地区(北太平洋)和引入地区(巴伦支海)收获的大型商业重要物种。 [3] 在大多数处理下,芥菜 (Barbarossa) 中的大多数 HCA 苹果酸和 mizuna (红色王国)/萝卜 (红色 Rambo,有机) 中的所有 HCA 苹果酸均显着降低,而在萝卜 (red Rambo)、芥末中,所有苹果酸在组合光照下总体增加(Garnet Giant)、mizuna(有机)、Pac choi(红色 Pac)和芥末(Scarlet Frills)。 [4] 当应用于同一渔业中的红帝王蟹 (RKC; Paralithodes camtschaticus) 时,这些指标取得的成功有限。 [5] 当拿破仑军队在 1808 年入侵西班牙并俘虏斐迪南七世国王时,谁统治谁的问题推动了独立问题的发展。 [6] 敏感性分析表明,Cui Tang 和 Alfred King Yin Lam 在 LNM 的研究影响了合并 OR。 [7] 我们在麻醉师和非麻醉师模拟的 COVID-19 插管场景中比较了 KingVision 通道刀片与非通道视频喉镜的插管时间。 [8] 红帝王蟹(Paralithodes camtschaticus)和雪蟹(Chionoecetes opilio)是广泛分布于北太平洋和西北大西洋的深海甲壳类动物。 [9] 建议通过将车身支撑减少到两个来确保小车框架在垂直平面内的旋转,并使用低位主销,为小车配备两个串联安装的波纹壳形式的气动弹簧悬架带有缩短的弹簧悬挂弹簧。 [10] 从多个学科角度对巴伦支海红帝王蟹和雪蟹入侵的研究展示了复杂的社会、经济和生态相互联系,这些联系正在改变社区和生态系统。 [11] 自1980年代初以来,对红帝王蟹肝胰腺酶进行了大量研究。 [12] 在堪察加太平洋沿岸的三种螃蟹中发现了 Hematodinium 属的寄生甲藻:红帝王蟹 Paralithodes camtschaticus、鞣革蟹 Chionoecetes bairdi 和多刺帝王蟹 Paralithodes brevipes。 [13] 此外,这些解释策略揭示了中世纪晚期神学的特殊政治基础,包括反犹太教、神圣的王权和十字军意识形态。 [14] 巴伦支海红帝王蟹 (Pararithodes camtschaticus) 不同组织中脂肪酸谱的信息稀缺且零散。 [15] 在这项工作中,我们已经证明红帝王蟹的肝胰腺匀浆具有比其商业对应物高一个数量级的透明质酸酶活性。 [16] 为了进行比较,我们还组装了长尾海洋生活华丽刺龙虾 Panulirus ornatus 和短尾海洋生活红色帝王蟹 Paralithodes camtschaticus 的基因组。 [17] 红帝王蟹 (RKC, Paralithodes camtschaticus) 是一种对挪威北部沿海地区的经济至关重要的十足目动物。 [18] , Big one, Turbo, Solex, Hunza, Easy Golem, Express Golem, Red King, Golem, Gioele, Big mama 和 Happy Golem。 [19] 将红帝王蟹从渔场运到市场的活动正在增加,这种做法的未来可持续性取决于在运输过程中保持最佳的动物福利。 [20] 简单总结 新的生物多样性记录对于扩大我们对商业上重要的红帝王蟹共生关系的了解非常重要。 [21] 在俄罗斯摩尔曼斯克地区,大西洋鳕鱼 (Gadus morhua) 和红帝王蟹 (Paralithodes camtschaticus) 加工废料非常庞大且未被利用。 [22] 约翰哈珀出生于一个农民家庭,在他的正规教育中发现了许多有影响力的人物,包括他鼓舞人心的学校老师威尔弗雷德金斯、植物生态学家罗伊克拉彭(FRS 1959)和杰克哈利(FRS 1964)和动物生态学家查尔斯埃尔顿( FRS 1953) 和 George Varley 在牛津大学 Magdalen 学院接受教育期间。 [23] 我们开发了一个生物经济模型来管理巴伦支海红帝王蟹 (RKC) 渔业,这是俄罗斯和挪威之间的共享种群。 [24] nan [25] nan [26] nan [27] nan [28] nan [29] nan [30] nan [31] nan [32] nan [33] nan [34] nan [35] nan [36] nan [37] nan [38] nan [39] nan [40] nan [41] nan [42] nan [43]
Sea Red King
The information on fatty acid profiles in different tissues of the Barents Sea red king crab (Paralithodes camtschaticus) is scarce and fragmentary. [1] We develop a bioeconomic model for the management of the Barents Sea red king crab (RKC) fishery, which is a shared stock between Russia and Norway. [2] The Barents Sea Red King Crab, a simultaneously profitable and invasive species with different net benefits across stakeholders, provides the empirical evidence. [3]巴伦支海红帝王蟹 (Pararithodes camtschaticus) 不同组织中脂肪酸谱的信息稀缺且零散。 [1] 我们开发了一个生物经济模型来管理巴伦支海红帝王蟹 (RKC) 渔业,这是俄罗斯和挪威之间的共享种群。 [2] nan [3]
red king crab
The Atlantic cod (Gadus morhua) and red king crab (Paralithodes camtschaticus) processing wastes are massive and unutilized in the Murmansk region of Russia. [1] Red king crab is a large commercially important species harvested both in their native areas (North Pacific) and in the area of its introduction (Barents Sea). [2] When applied to red king crab (RKC; Paralithodes camtschaticus) in the same fishery, those metrics had limited success. [3] Red king crab (Paralithodes camtschaticus) and snow crab (Chionoecetes opilio) are deep-sea crustaceans widely distributed in the North Pacific and Northwest Atlantic Oceans. [4] Since the early 1980s, a large number of studies on enzymes from the red king crab hepatopancreas were conducted. [5] A parasitic dinoflagellate of the genus Hematodinium was found off the Pacific coast of Kamchatka in three species of crabs: red king crab Paralithodes camtschaticus, tanner crab Chionoecetes bairdi, and spiny king crab Paralithodes brevipes. [6] The information on fatty acid profiles in different tissues of the Barents Sea red king crab (Paralithodes camtschaticus) is scarce and fragmentary. [7] In this work, we have shown that the hepatopancreas homogenate of the red king crab has a hyaluronidase activity that is an order of magnitude higher than its commercial counterpart. [8] For comparison, we also assembled the genomes of the long-tailed marine-living ornate spiny lobster, Panulirus ornatus , and the short-tailed marine-living red king crab, Paralithodes camtschaticus. [9] The red king crab (RKC, Paralithodes camtschaticus) is a highly-valued decapod species of key importance for the economy of the northern Norwegian coastal region. [10] Live transport of red king crab from the fishing grounds to the market is an activity that is increasing and the future sustainability of this practice depends on maintaining optimal animal welfare during transport. [11] Simple Summary New biodiversity records are important for expanding our knowledge about the symbiotic associations of the commercially important red king crab. [12] The Atlantic cod (Gadus morhua) and red king crab (Paralithodes camtschaticus) processing wastes are massive and unutilized in the Murmansk region of Russia. [13] We develop a bioeconomic model for the management of the Barents Sea red king crab (RKC) fishery, which is a shared stock between Russia and Norway. [14] Red king crab (Paralithodes camtschaticus) has become a valuable resource in the Norwegian fishery. [15] In this study relative ecological risk assessment was done for future potential introductions of three species in the Canadian Arctic: periwinkle Littorina littorea, soft shell clam Mya arenaria and red king crab Paralithodes camtschaticus. [16] The Barents Sea Red King Crab, a simultaneously profitable and invasive species with different net benefits across stakeholders, provides the empirical evidence. [17] Total stock of red king crab in the bay was assessed as 4750 individuals. [18] The study area covers a latitudinal gradient of temperature and different levels of predator pressure from the edible crab (Cancer pagurus) and the red king crab (Paralithodes camtschaticus). [19] Crabs abundance also had positive dynamics obviously because of the effect of protective measures for red king crab in the 2009–2012, though its biomass continued to grow even after restoring the commercial landings. [20] This study focused on hydrolysis of cosmetic fillers hyaluronic acid (HA) and kinetics of the HA hydrolysis using the homogenate of the red king crab hepatopancreas. [21]在俄罗斯摩尔曼斯克地区,大西洋鳕鱼 (Gadus morhua) 和红帝王蟹 (Paralithodes camtschaticus) 加工废料非常庞大且未被利用。 [1] 红帝王蟹是一种在其原生地区(北太平洋)和引入地区(巴伦支海)收获的大型商业重要物种。 [2] 当应用于同一渔业中的红帝王蟹 (RKC; Paralithodes camtschaticus) 时,这些指标取得的成功有限。 [3] 红帝王蟹(Paralithodes camtschaticus)和雪蟹(Chionoecetes opilio)是广泛分布于北太平洋和西北大西洋的深海甲壳类动物。 [4] 自1980年代初以来,对红帝王蟹肝胰腺酶进行了大量研究。 [5] 在堪察加太平洋沿岸的三种螃蟹中发现了 Hematodinium 属的寄生甲藻:红帝王蟹 Paralithodes camtschaticus、鞣革蟹 Chionoecetes bairdi 和多刺帝王蟹 Paralithodes brevipes。 [6] 巴伦支海红帝王蟹 (Pararithodes camtschaticus) 不同组织中脂肪酸谱的信息稀缺且零散。 [7] 在这项工作中,我们已经证明红帝王蟹的肝胰腺匀浆具有比其商业对应物高一个数量级的透明质酸酶活性。 [8] 为了进行比较,我们还组装了长尾海洋生活华丽刺龙虾 Panulirus ornatus 和短尾海洋生活红色帝王蟹 Paralithodes camtschaticus 的基因组。 [9] 红帝王蟹 (RKC, Paralithodes camtschaticus) 是一种对挪威北部沿海地区的经济至关重要的十足目动物。 [10] 将红帝王蟹从渔场运到市场的活动正在增加,这种做法的未来可持续性取决于在运输过程中保持最佳的动物福利。 [11] 简单总结 新的生物多样性记录对于扩大我们对商业上重要的红帝王蟹共生关系的了解非常重要。 [12] 在俄罗斯摩尔曼斯克地区,大西洋鳕鱼 (Gadus morhua) 和红帝王蟹 (Paralithodes camtschaticus) 加工废料非常庞大且未被利用。 [13] 我们开发了一个生物经济模型来管理巴伦支海红帝王蟹 (RKC) 渔业,这是俄罗斯和挪威之间的共享种群。 [14] nan [15] nan [16] nan [17] nan [18] nan [19] nan [20] nan [21]