Assessing the specificity of a herbivore on a plant of uncertain phylogenetic placing: <Emphasis Type="Italic">Listronotus elongatus</Emphasis> a herbivore of <Emphasis Type="Italic">Hydrocotyle ranunculoides</Emphasis>

Hydrocotyle ranunculoides (Araliaceae) is an aquatic plant native to the Americas and invasive in Europe. This work reports laboratory and garden studies on the host range of its main natural enemy, the weevil Listronotus elongatus (Hustache) (Coleoptera: Curculionidae). The genus Hydrocotyle is in a disputed phylogenetic situation such that both Apiaceae and Araliaceae must be included in the test list, but lacking a clear criterion of phylogenetic proximity. For this reason three testing instances were applied: no-choice on excised leaves, no choice on functional plants, and a multiple choice garden experiment. A large initial test-plant list was reduced to a smaller list adjusted by a feeding intensity criterion, survival curves and oviposition levels. Feeding was observed on the excised leaves of 21 out of 36 test plants, but as tests progressed to whole plants L. elongatus showed it could only develop and thrive on its natural host, and possibly survive as adults on Hydrocotyle modesta. Results confirm that typical laboratory starvation tests can provide a dependable ranking of physiological acceptability of different plant species but severely overestimate the actual host range of a specialized herbivore. They also indicate that the phylogenetic criterion for test plant list construction must be approached cautiously if the phylogeny is uncertain or disputed.     

湿地保护区周边农户生态补偿意愿比较

湿地生态补偿研究一直是国内外学者们研究的热点和难点。运用问卷调查方法和统计学的多元回归模型,分析湿地保护区周边生态补偿机制中微观经济主体-农户的行为与选择的问题,确定农户的生态补偿意愿值,及影响农户生态补偿意愿的主要影响因素并做比较分析。以陕西朱鹮国家级自然保护区为例,应用条件价值法(CVM),计量了2008年和2011年朱鹮保护区周边社区农户的绿色水稻生态补偿意愿值,分别为:3560.56元/hm2和3679.83元/hm2;Logistic回归模型分析的结果表明,同时影响农户2008年和2011年生态补偿意愿的相同因素是水田面积占耕地总面积比重,另外影响显著的因素主要是家庭年均收入、是否有非农收入、农户生产区距离朱鹮保护区核心区的远近、水稻田由于保护朱鹮减产是否严重。研究结果表明:应以政府为主导,加大湿地生态补偿的力度并建立生态补偿的长效机制。对推进和落实我国湿地生态经济补偿机制,特别是为陕西朱鹮湿地保护区生态经济补偿机制的完善具有参考价值。     

Culturing Mouse Cardiac Valves in the Miniature Tissue Culture System

Heart valve disease is a major burden in the Western world and no effective treatment is available. This is mainly due to a lack of knowledge of the molecular, cellular and mechanical mechanisms underlying the maintenance and/or loss of the valvular structure. Current models used to study valvular biology include in vitro cultures of valvular endothelial and interstitial cells. Although, in vitro culturing models provide both cellular and molecular mechanisms, the mechanisms involved in the 3D-organization of the valve remain unclear. While in vivo models have provided insight into the molecular mechanisms underlying valvular development, insight into adult valvular biology is still elusive. In order to be able to study the regulation of the valvular 3D-organization on tissue, cellular and molecular levels, we have developed the Miniature Tissue Culture System. In this ex vivo flow model the mitral or the aortic valve is cultured in its natural position in the heart. The natural configuration and composition of the leaflet are maintained allowing the most natural response of the valvular cells to stimuli. The valves remain viable and are responsive to changing environmental conditions. This MTCS may provide advantages on studying questions including but not limited to, how does the 3D organization affect valvular biology, what factors affect 3D organization of the valve, and which network of signaling pathways regulates the 3D organization of the valve.     

Code Biology – A New Science of Life

Systems Biology and the Modern Synthesis are recent versions of two classical biological paradigms that are known as structuralism and functionalism, or internalism and externalism. According to functionalism (or externalism), living matter is a fundamentally passive entity that owes its organization to external forces (functions that shape organs) or to an external organizing agent (natural selection). Structuralism (or internalism), is the view that living matter is an intrinsically active entity that is capable of organizing itself from within, with purely internal processes that are based on mathematical principles and physical laws. At the molecular level, the basic mechanism of the Modern Synthesis is molecular copying, the process that leads in the short run to heredity and in the long run to natural selection. The basic mechanism of Systems Biology, instead, is self-assembly, the process by which many supramolecular structures are formed by the spontaneous aggregation of their components. In addition to molecular copying and self-assembly, however, molecular biology has uncovered also a third great mechanism at the heart of life. The existence of the genetic code and of many other organic codes in Nature tells us that molecular coding is a biological reality and we need therefore a framework that accounts for it. This framework is Code biology, the study of the codes of life, a new field of research that brings to light an entirely new dimension of the living world and gives us a completely new understanding of the origin and the evolution of life.     

Disaster as Opportunity? Cyclone Pam and the Transmission of Cultural Heritage

ABSTRACT

Culture, by its very nature, is always at risk of change – whether through transformation, destruction or redefinition. So how might culture be said to be particularly at risk in the context of ‘natural’ disasters, and how are disasters ‘naturalised’ or incorporated under the terms of different cultural regimes? An earlier focus on the impacts to built or tangible heritage is increasingly being balanced by a concern for the transformations wrought by disasters in the intangible heritage of communities. Through the recent event of Cyclone Pam in 2015, and a case study of the World Heritage site of Chief Roi Mata’s Domain (CRMD), we explore the ways in which repetitive natural hazards have shaped culture and tangible and intangible forms of heritage in Vanuatu. We focus in particular on the issue of cultural transmission at CRMD and its relationship to natural hazards through the device of a ‘disaster biography’. Risk can also carry with it the prospect of opportunity, and our paper seeks to understand how opportunity might be present in post-disaster reworkings of culture and heritage.     

Parasitism-mediated prey selectivity in laboratory conditions and implications for biological control

In agroecosystems, parasitoids and predators may exert top-down regulation and predators for different reasons may avoid or give preference to parasitised prey, i.e., become an intraguild predator. The success of pest suppression with multiple natural enemies depends essentially on predator–prey dynamics and how this is affected by the interplay between predation and parasitism. We conducted a simple laboratory experiment to test whether predators distinguished parasitised prey from non-parasitised prey and to study how parasitism influenced predation. We used a host-parasitoid system, Spodoptera frugiperda and one of its generalist parasitoids, Campoletis flavicincta, and included two predators, the stinkbug Podisus nigrispinus and the earwig Euborellia annulipes. In the experiment, predators were offered a choice between non-parasitised and parasitised larvae. We observed how long it took for the predator to attack a larva, which prey was attacked first, and whether predators opted to consume the other prey after their initial attack. Our results suggest that, in general, female predators are less selective than males and predators are more likely to consume non-parasitised prey with this likelihood being directly proportional to the time taken until the first prey attack. We used statistical models to show that males opted to consume the other prey with a significantly higher probability if they attacked a parasitised larva first, while females did so with the same probability irrespective of which one they attacked first. These results highlight the importance of studies on predator–parasitoid interactions, as well as on coexistence mechanisms in agroecosystems. When parasitism mediates predator choice so that intraguild predation is avoided, natural enemy populations may be larger, thus increasing the probability of more successful biological control.     

Genetic assessment of <Emphasis Type="Italic">Abies koreana</Emphasis> (Pinaceae), the endangered Korean fir,and conservation implications

To establish a management plan for endangered and rare species, genetic assessment must first be conducted. The genetic characteristics of plant species are affected by demographic history, reproductive strategy, and distributional range as well as anthropological effects. Abies koreana E. H. Wilson (Pinaceae), Korean fir, is endemic to Korea and found only in sub-alpine areas of the southern Korean Peninsula and Jejudo Island. This species has been designated as critically endangered by the International Union for Conservation of Nature due to a continuous decline in its range and population fragmentation. We genotyped 176 individuals from seven natural populations and two afforested populations on the Korean Peninsula using 19 microsatellite loci. STRUCTURE analysis revealed two genetic clusters in natural populations (F _st  = 0.040 and R _st  = 0.040) despite low differentiation. We did not detect a significant reduction in genetic diversity or the signature of a genetic bottleneck despite population fragmentation and small population size. We deduced that this species exhibits a metapopulation structure, with the population on Jirisan Mountain acting as a source of genetic diversity for other local small populations on the Korean Peninsula, through contemporary asymmetric gene flow. However, the majority of afforested individuals on the Korean Peninsula originated from a different gene cluster. Thus, we recommend a conservation strategy that maintains two genetically unique clusters.     

On stony ground: Lithic technology,human evolution,and the emergence of culture

Culture is the central concept of anthropology. Its centrality comes from the fact that all branches of the discipline use it, that it is in a way a shorthand for what makes humans unique, and therefore defines anthropology as a separate discipline. In recent years the major contributions to an evolutionary approach to culture have come either from primatologists mapping the range of behaviors, among chimpanzees in particular, that can be referred to as cultural or “proto‐cultural” ¹, ² or from evolutionary theorists who have developed models to account for the pattern and process of human cultural diversification and its impact on human adaptation. ^3–5.     

A ‘metaphising’ dung beetle

Humans and beetles both have a species-specific Umwelt circumscribed by their sensory equipment. However, Ladislav Kováč argues that humans, unlike beetles, have invented scientific instruments that are able to reach beyond the conceptual borders of our Umwelt.You may have seen the film Microcosmos, produced in 1996 by the French biologists Claude Nuridsany and Marie Perrenou. It does not star humans, but much smaller creatures, mostly insects. The filmmakers'' magnifying camera transposes the viewer into the world of these organisms. For me, Microcosmos is not an ordinary naturalist documentary; it is an exercise in metaphysics.One sequence in the film shows a dung beetle—with the ‘philosophical'' generic name Sisyphus—rolling a ball of horse manure twice its size that becomes stuck on a twig. As the creature struggles to free the dung, it gives the impression that it is both worried and obstinate. As we humans know, the ball represents a most valuable treasure for the beetle: it will lay its eggs into the manure that will later feed its offspring. The behaviour of the beetle is biologically meaningful; it serves its Darwinian fitness.Yet, the dung beetle knows nothing of the function of manure, nor of the horse that dropped the excrement, nor of the human who owned the horse. Sisyphus lives in a world that is circumscribed by its somatic sensors—a species-specific world that the German biologist and philosopher Jakob von Uexküll would have called the dung beetle''s ‘Umwelt''. The horse, too, has its own Umwelt, as does the human. Yet, the world of the horse, just like the world of the man, does not exist for the beetle.If a ‘scholar'' among dung beetles attempted to visualize the world ‘out there'', what would be the dung-beetles'' metaphysics—their image of a part of the world about which they have no data furnished by their sensors? What would be their religions, their truths, or the Truth—revealed, and thus indisputable?Beetles are most successful animals; one animal in every four is a beetle, leading the biologist J.B.S. Haldane to quip that the Creator must have “had an inordinate fondness for beetles”. Are we humans so different from dung beetles? By birth we are similar: inter faeces et urinas nascimur—we are born between faeces and urine—as Aurelius Augustine remarked 1,600 years ago. Humans also have a species-specific Umwelt that has been shaped by biological evolution. A richer one than is the Umwelt of beetles, as we have more sensors than have they. Relative to the body size, we also possess a much larger brain and with it the capacity to make versatile movements with our hands and to finely manipulate with our fingers.This manual dexterity has enabled humans to fabricate artefacts that are, in a sense, extensions and refinements of the human hand. The simplest one, a coarse-chipped stone, represents the evolutionary origins of artefacts. Step-by-step, by a ratchet-like process, artefacts have become ever more complicated: as an example, a Boeing 777 is assembled from more than three million parts. At each step, humans have just added a tiny improvement to the previously achieved state. Over time, the evolution of artefacts has become less dependent on human intention and may soon result in artefacts with the capacity for self-improvement and self-reproduction. In fact, it is by artefacts that humans transcend their biology; artefacts make humans different from beetles. Here is the essence of the difference: humans roll their artefactual balls, no less worried and obstinate than beetles, but, in contrast to the latter, humans often do it even if the action is biologically meaningless, at the expense of their Darwinian fitness. Humans are biologically less rational than are beetles.Artefacts have immensely enriched the human Umwelt. From among them, scientific instruments should be singled out, as they function as novel, extrasomatic sensors of the human species. They have substantially fine-grained human knowledge of the Umwelt. But they are also reaching out—both to a distance and at a rate that is exponentially increasing—behind the boundary of the human Umwelt, behind its conceptual confines that we call Kant''s barriers. Into the world that has long been a subject of human ‘dung-beetle-like'' metaphysics. Nevertheless, our theories about this world could now be substantiated by data coming from the extrasomatic sensors. These instruments, fumbling in the unknown, supply reliable and reproducible data such that their messages must be true. They supersede our arbitrary guesses and fancies, but their truth seems to be out of our conceptual grasp. Conceptually, our mind confines us to our species-specific Umwelt.We continue to share the common fate of our fellow dung beetles: There is undeniably a world outside the confinements of our species-specific Umwelt, but if the world of humans is too complex for the neural ganglia of beetles, the world beyond Kant''s barriers may similarly exceed the capacity of the human brain. The physicist Richard Feynman (1965) stated, perhaps resignedly, “I can safely say that nobody today understands quantum mechanics.” Frank Gannon (2007) likewise commented that biological research, similarly to research in quantum mechanics, might be approaching a state “too complex to comprehend”. New models of the human brain itself may turn out to be “true and effective—and beyond comprehension” (Kováč, 2009).The advances of science notwithstanding, the knowledge of the universe that we have gained on the planet Earth might yet be in its infancy. However, in contrast to the limited capacity of humans, the continuing evolution of artefacts may mean that they face no limits in their explorative potential. They might soon dispense with our conceptual assistance exploring the realms that will remain closed to the human mind forever.     

Biology,agricultural impact,and management of <Emphasis Type="Italic">Cyperus rotundus</Emphasis> L.: the world’s most tenacious weed

Purple nutsedge (Cyperus rotundus L.), a troublesome weed, is economically damaging weed, which is widely naturalized in the tropical and subtropical regions of the world. This weed has been reported to cause 20–90% yield losses in various agronomic and horticultural crops across the world. Perennial nature, genetic diversity, ability to tolerate adverse climatic conditions, high rate of reproduction, ease-of-dispersion, strong competitive abilities, and allelopathic potential assist this weed to thrive in a range of agro-climatic regions. Routine cultural approaches, including crop rotation, crop choice, and mechanical cultivation, are ineffective in achieving season-long management of C. rotundus. Pre-emergent and post-emergent herbicides, as well as myco-herbicides, can control its growth but fail to limit the regenerative capacity and tuber viability of C. rotundus in the long term. Integration of herbicides with tillage operations during summer fallows would be a reliable option to desiccate the tubers and rhizomes of C. rotundus. Furthermore, preventive measures as well as complete destruction of nascent foci would be helpful in preventing future spread of this weed. This review will help researchers and scientists in understanding the reproductive biology and future threats of C. rotundus, leading towards the development of improved control methodologies. The information presented in this article will also enable researchers and growers to address the prevailing gaps in the eco-biology of this weed for the long-term control of C. rotundus in economically important field crops.     

Cosmopolitan Distribution of the Spitting Spider <Emphasis Type="Italic">Scytodes thoracica</Emphasis> Latreille, 1802 (Aranei,Scytodidae) and Its New Findings in the Northern Parts of the Range

We have compiled data on the distribution of spitting spider Scytodes thoracica Latreille, 1802 throughout the world and discussed our original findings of the spider in the northern part of its Eurasian range. This cosmopolitan species has a Mediterranean origin; the only place where it has not been found is Antarctica. The wide distribution of this species is due to the anthropogenic factor. However, S. thoracica demonstrates synanthropic behavior outside its natural range. Based on the published data of studies in the Mediterranean region, we describe the range of this species as a synanthrope; there lies the northern border of its range. We also determine the northern border of the range in natural areas (including agricultural landscapes). The southern region of the Middle Volga is the northernmost location of S. thoracica in the natural ecosystems of Eastern Europe and the easternmost location in the natural ecosystems of northern Eurasia.     

Grasshoppers and bushcrickets regionally extinct in the Czech Republic: consequence of the disappearance of habitats scattered on the edge of their ranges

According to the International Union for the Conservation of Nature, taxa extinct within a region but extant in other parts of the world should be classified as Regionally Extinct (RE). A taxon is designated RE when there is no reasonable doubt that the last individual capable of reproduction within a region has died or disappeared. A taxon can also be designated RE if it previously but no longer visited a particular region. The species Arcyptera fusca, Arcyptera microptera, Celes variabilis, Gampsocleis glabra, Locusta migratoria, Oedaleus decorus, and Stenobothrus rubicundulus had previously been found in only a small number of localities in the Czech Republic. We studied localities in the Czech Republic where they had been been previously reported but where their occurences had not been recently confirmed; the last specimens were observed in the 1940, 1960, or 1970s. All these species occurred at Czech localities representing borderline areas for such sub-Mediterranean and mountainous (Carpathian) species. The localities therefore had not offered optimal conditions for these insects, and the suitable biotopes were also scattered and isolated from each other. In most cases, these biotopes had disappeared due to change in management (either to natural or artificial forestation). Although certain of these species are excellent flyers (especially O. decorus), the known recent localities are separated by hundreds of kilometers. Based on our failure to find these species after extensive attempts, we conclude that discussed species should be considered regionally extinct in the Czech Republic. These species are of particularly vulnerable vegetation structures. The loss of these species indicate urgency for assessing status of co-occuring taxa.     

Environmental and ecological factors influencing the spillover of the non-native kelp, <Emphasis Type="Italic">Undaria pinnatifida</Emphasis>, from marinas into natural rocky reef communities

The non-native kelp, Undaria pinnatifida, is considered one of the world’s worst invasive species. The northeast Atlantic is a hotspot of Undaria invasion, yet there is limited knowledge on its invasion dynamics. In the UK its distribution is strongly associated with artificial structures, primarily marina and harbour pontoons, with relatively few records of Undaria on natural substrates. Here, the southwest UK is used as a case region, to explicitly link Undaria distribution-abundance patterns in artificial marina habitats with those in natural rocky reef habitats. Using a mixture of in situ recording and video survey techniques, Undaria was found at all thirteen marina sites surveyed; but in only 17 of 35 rocky reef sites, all of which were in 2 of the 5 larger systems surveyed (Plymouth Sound and Torbay). The distribution-abundance patterns of Undaria at reef sites were analysed using zero-inflated models. The probability of finding Undaria on rocky reef increased with increasing proximity to marinas with high abundances of Undaria. Total propagule pressure from marinas also increased the probability of occurrence, and was positively related to Undaria abundance and cover at reef sites. Increases in the cover of native kelps, Laminaria spp., and wave exposure at reef sites were linked to a reduced probability of Undaria occurrence, and lower abundance and cover. Identifying high risk areas, natural boundaries and factors affecting the spread and abundance of non-native species in natural habitats is key to future management prioritisation. Where Undaria is confined to artificial substrates management may be deemed a low priority. However, the results of this study suggest that controlling the abundance and propagule pressure in artificial habitats may limit, to some extent, the spillover of Undaria into natural rocky reef habitats, where it has the potential to interact with and influence native communities.     

Disentangling the role of MHC‐dependent ‘good genes' and ‘compatible genes' in mate‐choice decisions of three‐spined sticklebacks Gasterosteus aculeatus under semi‐natural conditions

To investigate and disentangle the role of major histocompatibility complex (MHC)‐based ‘good genes' and ‘compatible genes' in mate choice, three‐spined sticklebacks Gasterosteus aculeatus with specific MHC IIB genotypes were allowed to reproduce in an outdoor enclosure system. Here, fish were protected from predators but encountered their natural parasites. Mate choice for an intermediate genetic distance between parental MHC genotypes was observed, which would result in intermediate diversity in the offspring, but no mate choice based on good genes was found under the current semi‐natural conditions. Investigation of immunological variables revealed that the less‐specific innate immune system was more active in individuals with a genetically more divergent MHC allele repertoire. This suggests the need to compensate for an MHC‐diminished T‐cell repertoire and potentially explains the observed mate choice for intermediate MHC genetic distance. The present findings support a general pattern of mate choice for intermediate MHC diversity (i.e. compatible genes). In addition, the potentially dynamic role of MHC good genes in mate choice under different parasite pressures is discussed in the light of present and previous results.     

Variance in reproductive success and the opportunity for selection in a serially monogamous species: simulations of the mating system of <Emphasis Type="Italic">Tropheus</Emphasis> (Teleostei: Cichlidae)

Sexual selection is believed to play a major role in speciation processes of cichlid fishes in the East African Great Lakes, in particular Lakes Malawi and Victoria, by driving diversification in male nuptial coloration. In Lake Tanganyika, a high rate of color pattern diversification is found in the genus Tropheus, where more than 100, mostly allopatric, color morphs have been described. Whether color pattern differentiation in Tropheus could follow from sexual selection as well, has not yet been conclusively shown. Unlike typical sexually selected species, Tropheus are sexually monomorphic, establish temporary pair bonds and spawn monogamously. Variance in mating success among individuals would still allow for sexual selection, but due to their high population census sizes, parentage data from natural populations are difficult to obtain. Simulations designed according to existing data on mating behavior in Tropheus suggested that variance in male reproductive success can be substantial and lead to levels of opportunity for selection, which are similar to values estimated, for example, from natural populations of sexually dimorphic songbirds. Variance in male success was mostly affected by the way females perceived and reacted to differences between males, and to a lesser extent by the duration of components of the reproductive cycles of males and females. These results indicate that future work on the importance of sexual selection in Tropheus should concentrate on mate choice cues and female mate choice behavior, but does not depend critically on the acquisition of more detailed life history data.     

Labelling strategy and membrane characterization of marine bacteria Vibrio splendidus by in vivo 2H NMR

Vibrio splendidus is a marine bacterium often considered as a threat in aquaculture hatcheries where it is responsible for mass mortality events, notably of bivalves' larvae. This bacterium is highly adapted to dynamic salty ecosystems where it has become an opportunistic and resistant species. To characterize their membranes as a first and necessary step toward studying bacterial interactions with diverse molecules, we established a labelling protocol for in vivo ²H solid-state nuclear magnetic resonance (SS-NMR) analysis of V. splendidus. ²H SS-NMR is a useful tool to study the organization and dynamics of phospholipids at the molecular level, and its application to intact bacteria is further advantageous as it allows probing acyl chains in their natural environment and study membrane interactions. In this study, we showed that V. splendidus can be labelled using deuterated palmitic acid, and demonstrated the importance of surfactant choice in the labelling protocol. Moreover, we assessed the impact of lipid deuteration on the general fitness of the bacteria, as well as the saturated-to-unsaturated fatty acid chains ratio and its impact on the membrane properties. We further characterize the evolution of V. splendidus membrane fluidity during different growth stages and relate it to fatty acid chain composition. Our results show larger membrane fluidity during the stationary growth phase compared to the exponential growth phase under labelling conditions - an information to take into account for future in vivo SS-NMR studies. Our lipid deuteration protocol optimized for V. splendidus is likely applicable other microorganisms for in vivo NMR studies.     

Making the links: towards a global taxonomy for the red algal genus <Emphasis Type="Italic">Porphyra</Emphasis> (Bangiales,Rhodophyta)

Species assigned to Porphyra sensu lato (Bangiales) make up one of the largest groups of red algae in the world. While the Bangiales are monophyletic, Porphyra is not, but the number of genera remains unresolved and a consensus needs to be reached on how to proceed. Here, it is proposed that a global taxonomy for the group would enable resolution and consensus. Using examples from our work on Porphyra in both the northern and southern hemispheres, including the North Atlantic, Mediterranean and Pacific, notably Chile, we have addressed the following questions: i) how many species are there, ii) how many species are there in different parts of the world, and iii) how do these species relate to those in different parts of the world? A cumulative total of species described in the North Atlantic and Mediterranean since 1800 indicates that there are still species to be added to the flora for these regions. Determination of intraspecific diversity or diversity within species complexes was examined using the mitochondrial cox1. The results split the species into two distinct groups, revealed differences between the British and Faroese floras and indicated a new species in the Faroes. Detection of species diversity in different geographical areas of the world and their relationship with the North Atlantic and southeast Pacific (Chile) was studied using the plastid Rubisco spacer and partial rDNA SSU data. While the Rubisco spacer was limited for global comparisons, it was useful for species identification adding five more species to the Atlantic flora. The partial rDNA SSU data, while its shortness made it unsuitable for generic interpretation, revealed the spread of taxa from different geographical areas throughout the tree. We have concluded that to achieve a global taxonomy standard molecular markers should be used and we propose that the rbcL and complete rDNA SSU would be suitable. We have also concluded that while a few regions of the world have been well studied, before a consensus on generic boundaries can be achieved detailed taxonomic studies are needed in many other parts of the world including circumpolar Arctic, mid and southwest Atlantic and southeast Asia.