Your search keyword '"Albatross"' showing total 1,516 results

1. The efficiency of detecting seabird behaviour from movement patterns: the effect of sampling frequency on inferring movement metrics in Procellariiformes.

Author

Schoombie, Stefan, Wilson, Rory P., Ropert-Coudert, Yan, Dilley, Ben J., and Ryan, Peter G.

Subjects

MEASUREMENT errors, GRAPH neural networks, ERROR rates, PETRELS, ALBATROSSES

Abstract

Background: Recent technological advances have resulted in low-cost GPS loggers that are small enough to be used on a range of seabirds, producing accurate location estimates (± 5 m) at sampling intervals as low as 1 s. However, tradeoffs between battery life and sampling frequency result in studies using GPS loggers on flying seabirds yielding locational data at a wide range of sampling intervals. Metrics derived from these data are known to be scale-sensitive, but quantification of these errors is rarely available. Very frequent sampling, coupled with limited movement, can result in measurement error, overestimating movement, but a much more pervasive problem results from sampling at long intervals, which grossly underestimates path lengths. Methods: We use fine-scale (1 Hz) GPS data from a range of albatrosses and petrels to study the effect of sampling interval on metrics derived from the data. The GPS paths were sub-sampled at increasing intervals to show the effect on path length (i.e. ground speed), turning angles, total distance travelled, as well as inferred behavioural states. Results: We show that distances (and per implication ground speeds) are overestimated (4% on average, but up to 20%) at the shortest sampling intervals (1–5 s) and underestimated at longer intervals. The latter bias is greater for more sinuous flights (underestimated by on average 40% when sampling > 1-min intervals) as opposed to straight flight (11%). Although sample sizes were modest, the effect of the bias seemingly varied with species, where species with more sinuous flight modes had larger bias. Sampling intervals also played a large role when inferring behavioural states from path length and turning angles. Conclusions: Location estimates from low-cost GPS loggers are appropriate to study the large-scale movements of seabirds when using coarse sampling intervals, but actual flight distances are underestimated. When inferring behavioural states from path lengths and turning angles, moderate sampling intervals (10–30 min) may provide more stable models, but the accuracy of the inferred behavioural states will depend on the time period associated with specific behaviours. Sampling rates have to be considered when comparing behaviours derived using varying sampling intervals and the use of bias-informed analyses are encouraged. [ABSTRACT FROM AUTHOR]

Published

2024

2. The efficiency of detecting seabird behaviour from movement patterns: the effect of sampling frequency on inferring movement metrics in Procellariiformes

Author

Stefan Schoombie, Rory P. Wilson, Yan Ropert-Coudert, Ben J. Dilley, and Peter G. Ryan

Subjects

Albatross, Tracking, GPS, GNNS, Error rates, State-space model, Biology (General), QH301-705.5

Abstract

Abstract Background Recent technological advances have resulted in low-cost GPS loggers that are small enough to be used on a range of seabirds, producing accurate location estimates (± 5 m) at sampling intervals as low as 1 s. However, tradeoffs between battery life and sampling frequency result in studies using GPS loggers on flying seabirds yielding locational data at a wide range of sampling intervals. Metrics derived from these data are known to be scale-sensitive, but quantification of these errors is rarely available. Very frequent sampling, coupled with limited movement, can result in measurement error, overestimating movement, but a much more pervasive problem results from sampling at long intervals, which grossly underestimates path lengths. Methods We use fine-scale (1 Hz) GPS data from a range of albatrosses and petrels to study the effect of sampling interval on metrics derived from the data. The GPS paths were sub-sampled at increasing intervals to show the effect on path length (i.e. ground speed), turning angles, total distance travelled, as well as inferred behavioural states. Results We show that distances (and per implication ground speeds) are overestimated (4% on average, but up to 20%) at the shortest sampling intervals (1–5 s) and underestimated at longer intervals. The latter bias is greater for more sinuous flights (underestimated by on average 40% when sampling > 1-min intervals) as opposed to straight flight (11%). Although sample sizes were modest, the effect of the bias seemingly varied with species, where species with more sinuous flight modes had larger bias. Sampling intervals also played a large role when inferring behavioural states from path length and turning angles. Conclusions Location estimates from low-cost GPS loggers are appropriate to study the large-scale movements of seabirds when using coarse sampling intervals, but actual flight distances are underestimated. When inferring behavioural states from path lengths and turning angles, moderate sampling intervals (10–30 min) may provide more stable models, but the accuracy of the inferred behavioural states will depend on the time period associated with specific behaviours. Sampling rates have to be considered when comparing behaviours derived using varying sampling intervals and the use of bias-informed analyses are encouraged.

Published

2024

3. Habitat preferences of Phoebetria albatrosses in sympatry and allopatry.

Author

Bentley, Lily K., Phillips, Richard A., Carpenter‐Kling, Tegan, Crawford, Robert J. M., Cuthbert, Richard J., Delord, Karine, Dilley, Ben J., Makhado, Azwianewi B., Miller, Peter I., Oppel, Steffen, Pistorius, Pierre A., Ryan, Peter G., Schoombie, Stefan, Weimerskirch, Henri, and Manica, Andrea

Abstract

Aim Location Taxon Methods Results Main Conclusions Competition is often proposed to drive niche segregation along multiple axes in speciose communities. Understanding spatial partitioning of foraging areas is particularly important in species that are constrained to a central place. We present a natural experiment examining variation in habitat preferences of congeneric Southern Ocean predators in sympatry and allopatry. Our aim was to ascertain consistency of habitat preferences within species, and to test whether preferences changed in the presence of the congener.Southern Hemisphere.Multiple colonies of both species within the genus Phoebetria (sooty albatrosses).The two Phoebetria albatrosses breed on islands located from ~37–55°S – sooty albatrosses (P. fusca) in the north and light‐mantled albatrosses (P. palpebrata) in the south – with sympatric overlap at locations ~46–49°S. We analysed GPS and PTT tracks from 87 individuals and multiple remotely sensed environmental variables using GAMs, to determine and compare the key factors influencing habitat preference for each species at each breeding colony.While foraging habitat preferences are consistent in light‐mantled albatrosses, there is divergence of preferences in sooty albatrosses depending on whether they are in sympatry with their congener or in allopatry.This study represents the most comprehensive work on this genus to date and highlights how habitat preferences and behavioural plasticity may influence species distributions under different competitive conditions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Cryptic variation in the sooty albatross Phoebetria fusca: genetic and morphological differences between Atlantic and Indian Ocean birds

Author

Abeyrama, Dilini K., Risi, Michelle M., Connan, Maelle, Ryan, Peter G., Jones, Christopher W., Glass, Trevor, Osborne, Alexis M., Steinfurth, Antje, Schofield, Andy, Pistorius, Pierre, Keys, Danielle, Cherel, Yves, and Burg, Theresa M.

Published

2024

5. ANALYZING AND MIMICKING THE OPTIMIZED FLIGHT PHYSICS OF SOARING BIRDS: A DIFFERENTIAL GEOMETRIC CONTROL AND EXTREMUM SEEKING SYSTEM APPROACH WITH REAL TIME IMPLEMENTATION.

Author

EISA, SAMEH A. and POKHREL, SAMEER

Subjects

*GLIDING & soaring, *OPTIMIZATION algorithms, *AUTOMATIC control systems, *BIRD behavior, *ALBATROSSES, *DYNAMICAL systems

Abstract

The mystery of soaring birds, such as albatrosses and eagles, has intrigued biologists, physicists, aeronautical/control engineers, and applied mathematicians for centuries. These fascinating avian organisms are able to fly for long durations while expending little to no energy, utilizing wind to gain lift. This flight technique/maneuver is called dynamic soaring (DS). For biologists and physicists, the DS phenomenon is nothing but a wonder of the very elegant ability of these birds to interact with nature and use its physical ether in an optimal way for better survival and energy efficiency. For the engineering community, the DS phenomenon is a source of inspiration and an unequivocal opportunity for biomimicking. Mathematical characterization of the DS phenomenon in the literature has been limited to optimal control configurations that utilized developments in numerical optimization algorithms along with control methods to identify the optimal DS trajectory taken (or to be taken) by the bird/mimicking system. Unfortunately, all of these methods are highly complex and non-real-time. Hence, the mathematical characterization of the DS problem, we believe, appears to be at odds with the phenomenon/birds-behavior. In this paper, we provide a novel twolayered mathematical approach to characterize, model, mimic, and control DS in a simple real-time implementation, which we believe more effectively decodes the biological behavior of soaring birds. First, we present a differential geometric control formulation and analysis of the DS problem, which allow us to introduce a control system that is simple yet controllable. Second, we establish a link between the DS philosophy and a class of dynamical control systems known as extremum seeking systems. This linkage provides the control input that makes DS a real-time reality. We believe our framework accurately describes the biological behavior of soaring birds and opens the door for geometric control theory and extremum seeking systems to be utilized in biological systems and natural phenomena. Simulation results are provided along with comparisons to powerful optimal control solvers, illustrating the advantages of the introduced method. [ABSTRACT FROM AUTHOR]

Published

2024

6. MOLECULAR SURVEY OF HAEMOSPORIDIAN PARASITES IN PROCELLARIIFORMES SAMPLED IN SOUTHERN BRAZIL, 2013–22.

Author

Sgarioni, Annelise Zabel, Serafini, Patricia, Pereira, Alice, Emmerich, Tiffany, de Pontes, Thamires Pires, Machado, Douglas Coutinho, Ribeiro, Paula Reis, de Amorim, Derek Blaese, Klafke, Guilherme, and Reck, José

Abstract

The order Procellariiformes includes several species of seabirds that perform long-distance migrations crossing all the oceans. These movements may contribute to the dispersal and exchange of hemoparasites, such as haemosporidians. There is a lack of studies regarding the order Haemosporida in Procellariiformes, and, to date, only the genus Plasmodium has been reported. This survey investigated the occurrence of the three genera of haemosporidians, Plasmodium, Haemoproteus, and Leucocytozoon, in samples collected between 2013 and 2022 from 95 individuals of 14 species of Procellariiformes from southern Brazil, including live animals in rehabilitation centers, individuals caught as incidental bycatch, and carcasses found along the coast. A total of 171 samples of blood and fragments of liver and spleen were analyzed, with extracted DNA being subjected to a nested PCR followed by phylogeny analysis. All animals were negative for Plasmodium spp. and Leucocytozoon spp., but one Black-browed Albatross (Thalassarche melanophris) and one Manx Shearwater (Puffinus puffinus) specimen were positive for Haemoproteus spp. The sequences obtained from positive seabirds did not show 100% similarity with other known lineages available in the MalAvi database and thus were probably novel lineages. However, one sequence clustered together with Haemoproteus noctuae, a parasite from Strigiformes, while the other was grouped with Haemoproteus columbae, which is classically related to Columbiformes. These results suggest that both positive animals may have become infected when beached or in rehabilitation centers by a spillover of vectors from local birds. This highlights the importance of surveillance of the health of Procellariiformes regarding the possibility of dissemination of new pathogens in different bird populations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Atrophy in Aging Systems: Evidence, Dynamics, and Antidote.

Author

Tiwana, Amrit and Safadi, Hani

Subjects

ATROPHY, SOFTWARE refactoring, AGE, RESEARCH awards, INFORMATION storage & retrieval systems, ALBATROSSES

Abstract

Information systems age ungracefully. Once-modern systems aging into unmaintainable, buggy, meltdown-prone albatrosses is a widespread phenomenon that has received limited research attention. The received wisdom is that degenerative deterioration can be combated with refactoring or architectural improvements to their existing code. We conceptualize this phenomenon as system atrophy, and corroborate its existence by analyzing the code of over 1,300 systems as they underwent 19 million changes over 25 years. Such atrophy in systems has bread-and-butter consequences for organizations that rely on them. We show that it stunts the evolution of systems, makes them more bug-prone, and disengages developers. Atrophy in existing systems also makes it for organizations to implement other new systems because there are harder to integrate with them and cannibalize resources left over after their costlier upkeep. We then develop the idea that little increments in the modularity of their underlying code as a system evolves provide a powerful antidote to such atrophy. However, this antidote gradually loses its potency as a system ages further. Contrary to the popular belief, architectural improvements slow down atrophy but do not stop it. Our findings suggest that organizations must plan to eventually phase out these information systems, rather than just hoping to maintain them. For practice, we offer new insights on managing the tradeoff between evolution and atrophy; and how organizations can extract more useful life from aging systems. A pervasive, unbroached phenomenon is how once-modern systems age into unmaintainable albatrosses. We conceptualize this phenomenon from first-principles as system atrophy. We construct a trace data set from 190 million lines of evolving code in 1,354 systems spanning 25 years to corroborate it. Our middle-range theory introduces system atrophy into the conversation on information systems evolution, showing how small increments in modularity slow atrophy but lose potency with age. Atrophy eventually stunts systems, increases bugginess, and disengages developers. History: Yulin Fang, Senior Editor; Ning Su, Associate Editor. Funding: H. Safadi acknowledges support from the Terry-Sanford Research Award. Supplemental Material: The online appendix is available at https://doi.org/10.1287/isre.2023.1218. [ABSTRACT FROM AUTHOR]

Published

2024

8. Assisted colonization of albatrosses in the California Channel Islands: conservation basis and suitability assessment.

Author

VanderWerf, Eric A., Holmes, Nick D., Morrison, Scott A., Kohley, C. Robby, Wegmann, Alex, and Young, Lindsay C.

Subjects

COLONIZATION (Ecology), ALBATROSSES, ISLANDS, COLONIES (Biology), STORM surges, WILDLIFE conservation, TROPICAL cyclones, NEST building

Abstract

Laysan (Phoebastria immutabilis) and Black-footed Albatrosses (P. nigripes) nest primarily on low-lying atolls in the Northwestern Hawaiian Islands that are threatened by inundation from sea level rise and increasing storm surge associated with climate change. Restoration or creation of breeding colonies on higher islands is among the highest priority conservation actions for these species. A previous structured decision-making analysis identified the California Channel Islands as a possible restoration site for Black-footed Albatross. The California Current is part of the natural foraging ranges of Laysan and Blackfooted albatrosses. Archaeological evidence indicates both species were present in the California Channel Islands prehistorically, yet neither currently nests in the Channel Islands. We assessed the feasibility of creating albatross breeding colonies in the Channel Islands using social attraction and translocation, and the suitability of each island. We used a risk analysis framework developed for the U.S. National Park Service to evaluate the potential ecological risks of this action. Creating an albatross colony in the Channel Islands is feasible using available methods. Santa Barbara and San Nicolas islands would be most suitable for albatross. Social attraction is less expensive and might be effective for creating a Laysan Albatross colony because that species is already visiting some islands. Translocation would be necessary to create a Black-footed Albatross colony. The risks associated with attempting to establish albatross breeding colonies in the Channel Islands were deemed to be generally low, but the risk of no action is high to these albatrosses. This can be a useful assisted colonization case study that can inform decisions by land managers and agencies regarding conservation of North Pacific albatrosses and other species. [ABSTRACT FROM AUTHOR]

Published

2024

9. Africa's Political Kingdom and the Albatross of Economic Bondage.

Author

Ramose, Mogobe B.

Abstract

Kwame Nkrumah of Ghana espoused the doctrine that Africa's struggle for liberation from subjugation by the Western colonial conqueror in its unjust wars of conquest must seek "the political kingdom first". The complement to this is that "the rest would be added thereunto". This implicit reaffirmation of Matthew 6:33 reveals the intricate connection between religion and politics, in our particular point of focus, theological politics in the context of Western christianity. This is important because most of the early political leaders of Africa were either christian by upbringing or conviction. Accordingly, Nkrumah's doctrine—despite his discernment that political independence is incomplete without economic freedom—fell on fertile black soil as the rest of politically independent Africa adopted and implemented it. In consequence, the burden of economic bondage lives on in Africa like the dead Albatross around the neck of Coleridge's Ancient Mariner. For us the Albatross is both the symbol and the reality that the Ocean was the pathway of the death of many indigenous Africans uprooted by force to become slaves in the "new world". This depopulation of Africa is yet another death demanding, as argued by Cheikh Anta Diop, the rapid and systematic repopulation of Africa. The thesis defended here is that the repudiation of Nkrumah's doctrine is an ethical exigency rooted in the demand for reparations to Africa, restoration of sovereign title to territory and its repopulation for emancipation from economic bondage. Conqueror South Africa is our specific focus from the perspective of ubu-ntu. [ABSTRACT FROM AUTHOR]

Published

2024

10. Variation in foraging strategies of New Zealand albatross species within a dominance hierarchy.

Author

Basham, Eryn, Briskie, James V., and Martin, Paul

Subjects

*SOCIAL dominance, *SPECIES, *ALBATROSSES, *FISH feeds, *CARNOSIC acid, *ECOTOURISM

Abstract

Co-occurring species sharing a limited resource are thought to adopt alternative strategies to coexist. Here, we investigate four species of co-occurring albatrosses in southern New Zealand that share food resources but differ in dominance status to test for variation in strategies to acquire supplemental food provided by ecotourism boats. We found evidence for distinct foraging strategies consistent with each species' dominance rank. Buller's albatross (Thalassarche bulleri) was the most subordinate species and frequently pursued scraps of fish on the periphery of the feeding flocks and avoided interacting with other species. Salvin's albatross (Thalassarche salvini) and White-capped albatross (Thalassarche cauta) were intermediate in dominance status; both had fast responses to fish and typically pursued the largest fish scraps, though T. cauta successfully stole fish while T. salvini did not. In contrast, Southern Royal albatross (Diomedea epomophora) was the dominant species and did not avoid interactions with other species and pursued the largest fish scraps but was slower to respond compared with some subordinates. Natural food sources approximate the scenarios seen behind ecotourism boats, suggesting that differences in foraging strategies are likely present without human intervention. Overall, our results suggest that foraging strategies associated with dominance hierarchies could help structure seabird communities. [ABSTRACT FROM AUTHOR]

Published

2023

11. Marion Island: Birds, Cats, Mice and Men

Author

Huntley, Brian John and Huntley, Brian John

Published

2023

12. The Influence of Wing Deformation on Energy Extraction During Dynamic Soaring

Author

Gao, Jiangwei, An, Weigang, Shi, Fuzhen, Wang, Wei, Su, Jianmin, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Jing, Zhongliang, editor, and Strelets, Dmitry, editor

Published

2023

13. Assisted colonization of albatrosses in the California Channel Islands: conservation basis and suitability assessment

Author

Eric A. VanderWerf, Nick D. Holmes, Scott A. Morrison, C. Robby Kohley, Alex Wegmann, and Lindsay C. Young

Subjects

albatross, assisted colonization, California Channel Islands, climate change, managed relocation, social attraction, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Laysan (Phoebastria immutabilis) and Black-footed Albatrosses (P. nigripes) nest primarily on low-lying atolls in the Northwestern Hawaiian Islands that are threatened by inundation from sea level rise and increasing storm surge associated with climate change. Restoration or creation of breeding colonies on higher islands is among the highest priority conservation actions for these species. A previous structured decision-making analysis identified the California Channel Islands as a possible restoration site for Black-footed Albatross. The California Current is part of the natural foraging ranges of Laysan and Black-footed albatrosses. Archaeological evidence indicates both species were present in the California Channel Islands prehistorically, yet neither currently nests in the Channel Islands. We assessed the feasibility of creating albatross breeding colonies in the Channel Islands using social attraction and translocation, and the suitability of each island. We used a risk analysis framework developed for the U.S. National Park Service to evaluate the potential ecological risks of this action. Creating an albatross colony in the Channel Islands is feasible using available methods. Santa Barbara and San Nicolas islands would be most suitable for albatross. Social attraction is less expensive and might be effective for creating a Laysan Albatross colony because that species is already visiting some islands. Translocation would be necessary to create a Black-footed Albatross colony. The risks associated with attempting to establish albatross breeding colonies in the Channel Islands were deemed to be generally low, but the risk of no action is high to these albatrosses. This can be a useful assisted colonization case study that can inform decisions by land managers and agencies regarding conservation of North Pacific albatrosses and other species.

Published

2024

14. Prey-switching to fishery discards does not compensate for poor natural foraging conditions in breeding albatross.

Author

Kuepfer, Amanda, Votier, Stephen C, Sherley, Richard B, Ventura, Francesco, Matias, Rafael, Anderson, Orea, Brickle, Paul, Arkhipkin, Alexander, and Catry, Paulo

Subjects

*ALBATROSSES, *OCEAN temperature, *FISHERIES, *BYCATCHES, *FISHERY management, *DIETARY supplements, *GASTROINTESTINAL contents

Abstract

Fishery discards supplement food for many seabirds, but the impacts of declining discards are poorly understood. Discards may be beneficial for some populations but have negative impacts by increasing bycatch risk or because they are junk-food. The Falkland Islands support > 70% of global black-browed albatross Thalassarche melanophris populations, which feed on discards. However, the effect of discards on population demographics, and implications of fishery management changes, are unknown. We analysed stomach contents of black-browed albatross chicks across eight breeding seasons (2004–2020) from New Island, Falkland Islands, to assess variation in discard consumption and how this relates to foraging conditions and breeding success. Across years, 68%–98% of samples contained natural prey, whilst 23%–88% of samples contained fishery discards. Discard consumption was positively related to fishery catches of hoki Macruronus magellanicus and sea surface temperature anomalies SSTA (°C), and negatively related to breeding success. These results suggest a diet-switching behaviour for Falkland Islands albatrosses, whereby birds switch from preferred natural prey to suboptimal discards when environmental conditions, and hence natural feeding opportunities, are unfavourable. Crucially, this study highlights that fishery discards do not compensate for poor natural foraging conditions for breeding albatrosses in the long term. [ABSTRACT FROM AUTHOR]

Published

2023

15. Revisiting Coleridge's "Instead of the Cross, the Albatross About my Neck was Hung".

Author

Zuraikat, Malek J.

Subjects

*ENGLISH poetry, *ENGLISH literature, *ENGLISH poets

Abstract

This paper scrutinizes the cultural strangeness of Coleridge's line "Instead of the cross, the Albatross about my neck was hung", arguing that the image of the bird hung around the Mariner's neck is borrowed from Holy Quran. The paper provides a close reading of the line under discussion while associating it with the Quranic verse 13 of Chapter 17 (al-isrāʼ; meaning: The Night Journey), which declares that a bird is bound to the neck of every single human. The paper concludes that the image of the Albatross hung around the Mariner's neck testifies to the heavy influence of Holy Quran on Coleridge's poetry, which complies with Coleridge's statement that he will never forget Mohammad the Prophet. [ABSTRACT FROM AUTHOR]

Published

2023

16. Case 2: The Aircraft

Author

de Weck, Olivier L. and De Weck, Olivier L.

Published

2022

17. Positioning of Islands in Modern Japan

Author

Hiraoka, Akitoshi, Suyama, Satoshi, Miyauchi, Hisamitsu, Murayama, Yuji, Editor-in-Chief, Arai, Yoshio, Series Editor, Araki, Hitoshi, Series Editor, Haruyama, Shigeko, Series Editor, Himiyama, Yukio, Series Editor, Kawabata, Mizuki, Series Editor, Komeie, Taisaku, Series Editor, Matsumoto, Jun, Series Editor, Oguchi, Takashi, Series Editor, Sugai, Toshihiko, Series Editor, Suzuki, Atsushi, Series Editor, Watanabe, Teiji, Series Editor, Yagasaki, Noritaka, Series Editor, Yokoyama, Satoshi, Series Editor, Hiraoka, Akitoshi, editor, Suyama, Satoshi, editor, Miyauchi, Hisamitsu, editor, and Sukeshige, Takehisa, editor

Published

2022

18. DP and the Art of Perfect Positioning

Author

Stig Kvaal, Stig Østby, and Morten Breivik

Subjects

dynamic positioning, jens g. balchen, kongsberg våpenfabrikk, albatross, offshore vessels, Electronic computers. Computer science, QA75.5-76.95

Abstract

How does a vessel keep its position at sea without mooring? The answer is through dynamic positioning, or DP. Advanced technology, combining position reference sensors, computers, propellers and thrusters, is used to counteract environmental forces such as wind, currents and waves to dynamically position the vessel without using anchors or mooring lines. Today, DP systems are found in every ocean region in the world. The Kongsberg DP adventure began in 1975 when Kongsberg Våpenfabrikk signed its first contract. Eighteen months later, an Albatross DP system was installed on board a Norwegian diving vessel in the North Sea. Today, dynamic positioning equipment from the inland town of Kongsberg is found onboard a myriad of ship types including supply vessels, drilling rigs, pipe and cable layers, stone-dumping and bulk vessels, shuttle tankers, crane and lifting vessels, mine hunting vessels, cruise ships, floating hotels and yachts. Dynamic positioning is not limited to keeping a vessel on a fixed location but also to controlling the motions of vessels along predetermined tracks. After over 40 years in business, Kongsberg Maritime still maintains a world-leading position within dynamic positioning. This paper is based on the book “The Jewel in the Crown: Kongsberg Dynamic Positioning Systems 1975 – 2015”, (Kvaal and Østby, 2015).

Published

2022

19. Intrinsic and extrinsic drivers of shape variation in the albatross compound bill

Author

Joshua Tyler, David P. Hocking, and Jane L. Younger

Subjects

bill, albatross, allometry, diet, morphospace, Science

Abstract

Albatross are the largest seabirds on Earth and have a suite of adaptations for their pelagic lifestyle. Rather than having a bill made of a single piece of keratin, Procellariiformes have a compound rhamphotheca, made of several joined plates. Drivers of the shape of the albatross bill have not been explored. Here we use three-dimensional scans of 61 upper bills from 12 species of albatross to understand whether intrinsic (species assignment & size) or extrinsic (diet) factors predict bill shape. Diet is a significant predictor of bill shape with coarse dietary categories providing higher R2 values than dietary proportion data. We also find that of the intrinsic factors, species assignment accounts for ten times more of the variation than size (72% versus 6.8%) and that there is a common allometric vector of shape change between all species. When considering species averages in a phylogenetic framework, there are significant Blomberg's K results for both shape and size (K = 0.29 & 1.10) with the first axis of variation having a much higher K value (K = 1.9), reflecting the split in shape at the root of the tree. The influence of size on bill shape is limited, with species assignment and diet predicting far more of the variation. The results show that both intrinsic and extrinsic factors are needed to understand morphological evolution.

Published

2023

20. Albatrosses develop attraction to fishing vessels during immaturity but avoid them at old age.

Author

Weimerskirch, Henri, Corbeau, Alexandre, Pajot, Adrien, Patrick, Samantha C., and Collet, Julien

Subjects

*ALBATROSSES, *PSYCHOLOGICAL typologies, *FISHING, *OLD age, *ADULTS

Abstract

Animals have to develop novel behaviours to adapt to anthropogenic activities or environmental changes. Fishing vessels constitute a recent feature that attracts albatrosses in large numbers. While they provide a valuable food source through offal and bait, they cause mortalities through bycatch, such that selection on vessel attraction will depend on the cost–benefit balance. We examine whether attraction to fishing and other vessels changes through the lifetime of great albatrosses, and show that attraction differed between age classes, sexes and personality. Juveniles encountered fewer vessels than adults, but also showed a lower attraction to vessels when encountered. Attraction rates, especially for fishing vessels, increased through immaturity to peak during adulthood, decreasing with old age. Shy females had lower attraction to vessels and shy males remained at vessels longer, suggesting that bolder individuals may outcompete shyer ones, with positive consequences for mass gain. These results suggest that attraction to vessels is a learned process, leading to an increase with age, and is not the result of preferential attraction to new objects by juveniles. Overall, our findings have important conservation implications as a result of potential strong differential selection on the risk of bycatch for age classes, personality types, populations and species. [ABSTRACT FROM AUTHOR]

Published

2023

21. Native avian predators for the world's Black-browed Albatross (Thalassarche melanophrys) breeding colony in inner waters of Tierra del Fuego, Chile.

Author

Droguett, Daniela, Arredondo, Cristóbal, Dougnac, Catherine, Kusch, Alejandro, Montiel, Américo, and Vila, Alejandro

Subjects

COLONIES (Biology), CONDORS, PREDATORY animals, MARINE parks & reserves, COLONIAL birds, ALBATROSSES, BIRDS of prey

Abstract

The breeding season is the most vulnerable period in the early stages of the life cycle of seabirds, due to the exposure of their eggs and chicks to the impact by predators. Most of the studies on predator–prey relationships between the Black-browed albatross (Thalassarche melanophrys) and other predators like raptors, were carried out in breeding colonies located in oceanic and highly isolated areas, such as Antarctic islands. However, breeding colonies located in the Sub-Antarctic fjords have not been studied. The geographical position of the study colony makes it susceptible to a wider spectrum of predators than the oceanic islands. Therefore, it is unknown how predation dynamics affect the reproductive success of this species. Here, we show for the first time the identity and activity of avian native predators on the colony in the inner waters of southern Tierra del Fuego, Chile. This study covered seventeen field visits between 2017 and 2020 to monitor the reproductive activity of this colony. In this study, we identified the interaction between predators, the breeding activity and success of albatrosses using direct census and camera traps. Across the study, the number of breeding pairs ranged from 64 (2017) to three (2019) breeding pairs of the Black-browed albatross. Terrestrial birds with occurrence on the colony were the Andean condor, Southern caracara, Chimango caracara and the Turkey vulture. Our results showed that the main avian predator species affecting the breeding success of the Black-browed albatross, were both the Andean condor and the Southern caracara. The Black-browed albatross is a conservation target in this area since of the colony of Islote Albatros is currently part of the Seno Almirantazgo Marine protected area. Therefore, baseline informations on species interactions are fundamental for its management particularly when native predators like the Andean condor are also threatened species globally. [ABSTRACT FROM AUTHOR]

Published

2023

22. Cryptic population decrease due to invasive species predation in a long‐lived seabird supports need for eradication.

Author

Oppel, Steffen, Clark, Bethany L., Risi, Michelle M., Horswill, Catharine, Converse, Sarah J., Jones, Christopher W., Osborne, Alexis M., Stevens, Kim, Perold, Vonica, Bond, Alexander L., Wanless, Ross M., Cuthbert, Richard, Cooper, John, and Ryan, Peter G.

Subjects

*BIRD populations, *INTRODUCED species, *SEA birds, *POPULATION viability analysis, *PREDATION, *FISHERIES, *ENVIRONMENTAL degradation, *MICE

Abstract

Invasive species are one of the greatest drivers of biodiversity loss worldwide, and the eradication of invasive species from islands is a highly efficient management strategy. Because eradication operations require large financial investments, uncertainty over the magnitude of impacts of both invasive species and their removal can impede the willingness of decision makers to invest in eradication. Such uncertainty is prevalent for long‐lived species that display an inherent lag between life stages affected by invasive species and those used for population status assessments.Albatrosses are amongst the longest‐living bird species and are threatened on land by invasive species and at sea by industrial fisheries. As in many seabird species, usually only a segment of the population (breeding adults) is used for status assessments, making it difficult to assess albatross population trends and the potential benefit of conservation action, such as the management of predatory invasive species.We used population monitoring and mark‐recapture data to estimate the past population trajectory of the critically endangered Tristan albatross Diomedea dabbenena by accounting for unobservable birds at sea in an integrated population model. We then projected the future population trajectory of Tristan albatrosses for scenarios with or without predation by invasive house mice Mus musculus on their main breeding site, Gough Island.The adult breeding population remained stable between 2004 and 2021, but breeding success was low (31%) and our model indicated that the total population (including unobservable immature birds) decreased from a median estimate of 9,795 to 7,752 birds. Eradicating invasive mice leading to a two‐fold increase in breeding success would result in a 1.8–7.6 times higher albatross population by 2050 (median estimate 10,352 individuals) than without this intervention.Low reproductive output for long‐lived species may lead to a cryptic population decrease, which can be obscured from readily available counts of breeding pairs by changes in the population structure. Mouse eradication is necessary to halt the ongoing population decrease of the Tristan albatross, even if this decrease is not yet apparent in the breeding population size. [ABSTRACT FROM AUTHOR]

Published

2022

23. Comparative morphology of the compound rhamphotheca of tubenosed seabirds (order Procellariiformes).

Author

Piro, Alejandra

Subjects

COMPARATIVE anatomy, MAXILLA, MANDIBLE, ALBATROSSES, CORMORANTS, CEREBRAL sulci

Abstract

Compound rhamphothecae are characteristically present in the order Procellariiformes, but other birds also show this feature: ostriches, tinamous, cormorants, pelicans, herons. In Procellariiformes the shape, size and features of the rhamphotheca are not related to feeding mechanisms and/or displays (as in most birds) but with their nasal gland excretions and highly developed olfactory organ. The compound rhamphothecae are composed by several plates: the dorsal culminicorn, naricorn forming the tubes, the laterals latericorn, and premaxillary nail (upper jaw); the ramicorn and the mandibular nail (lower jaw). A nasolabial groove is present between the culminicorn and the latericorn, and caudally to the premaxillary nail. The mentolabial groove is between the ramicorn and the mandibular nail. Diomedeidae present a pseudomental fold and groove in the ventral part of the mandibular nail, the fold varies in its caudal extension. The ramicorn in Procellariidae is divided longitudinally into ventral and dorsal ramicorn by a suture. This feature is not found in other Procellariiformes except in Phoebetria palpebrata (Diomedeidae). The development and fusion of the tubes in Procellariidae vary as: a single tube, a partially fused tube, or completely separated tubes. Its extension is variable, reaching its greatest length in Macronectes giganteus. In Diomedeidae the configuration of the incurrent and excurrent apertures within or outside the tubes vary, and they present the shortest tubes. The grooves in Procellariidae vary in their development: the nasolabial groove sometimes is well marked with sutures, the ramicorn groove is always a sulcus (except for Fulmarus glacialoides) and expands cranially and/or caudally forming a triangle-shape depending on the species. In Diomedeidae the culminolabial groove presents variation at the dorsal branch, it can be: well developed, less developed or brief. Oceanitidae and Hydrobatidae present less variation. Phylogenetically, beaks of Oceanitidae and Hydrobatidae are the most basal, whereas Diomedeidae beaks derived from Procellariidae. [ABSTRACT FROM AUTHOR]

Published

2022

24. From albatross to long range UAV flight by dynamic soaring

Author

Bonnin, Vincent

Subjects

629.132, dynamic soaring, UAV, albatross, long range, optimized trajectory, energy-harvesting

Abstract

In the domain of UAVs, endurance and range are key utility factors. However, small-sized UAVs are faced with serious limitations regarding energy storage options. A way to address this challenge is to seek for energy from the surrounding environment. One flight technique, called dynamic soaring, has been perfected by large seabirds like the albatross, which enables them to wander effortlessly in southern oceans. This thesis investigates the feasibility to find inspiration from the biological world in order to address the issue of limited endurance. First of all, an extensive literature background sums-up a range of technical aspects that can be learnt out of the flight of albatrosses. It reviews their morphology, flight performance and sensitivity to wind strength, their flight characteristics and energy expenditure management. Then, a methodology to simulate dynamic soaring flight is built-up by focusing first on adequate models for the vehicle and for the environment. It details the way those models are described quantitatively and qualitatively. As for the vehicle, a point mass model is chosen and applied to fixed-wing gliders of several scales, as well as to an albatross of generic dimensions. The environment is first modelled by classical boundary layer theory on a rather flat surface and then refined by taking into account specificity about the ocean boundary layer, such as varying roughness length and surface waves. Equations of motion are detailed for both points of views, earth-relative and air relative. This yields two different sets of equations of motion, eventually representing equivalent physics. An optimization problem is then set in order to determine, for the vehicle, how to extract energy from its environment. Variations in objective function and in constraints are described before presenting the numerical integration scheme which converts the optimization problem into that of finite-dimension. The solving tools and their specificity are presented, followed by a validation of the overall methodology with a particular study case from the literature. Basic principles of dynamic soaring flight are explicated by using a specific closed-loop study case. Energy-harvesting mechanisms are disclosed locally and next integrated over the whole flight path. A further illustration of dynamic soaring is provided by relaxing some periodicity constraints and opening the trajectory. The specificity of the ocean boundary layer environment is finally implemented and a refined energy-harvesting strategy is presented. Air relative equations of motion are dimensionless so as to highlight specific dynamic soaring behaviours, in the case of a simplified linear wind profile and eventually by finding an appropriate non-dimensionalization for a logarithmic wind profile. Conditions of similarities between dimensionless solutions are described and some basic dynamic soaring characteristics are outlined. Finally, various dynamic soaring performance study case are computed. Optimized trajectories are implemented for the selected vehicles and compared on a required wind strength basis. The sensitivity of the required wind strength to the net flight heading as well as to the ground clearance and to the surface roughness length is determined by drawing performance charts. In order to enlarge the scope of favourable dynamic soaring conditions, thrust-augmented trajectories are considered. The range improvements offered by dynamic soaring are compared to a straight line case, for different wind strength and different net flight headings.

Published

2016

25. SALVIN'S ALBATROSS THALASSARCHE SALVINI INTERACTING WITH FREEZER TRAWLERS IN WATERS OF THE PATAGONIA SHELF.

Author

DELLACASA, RUBÉN F., CHAVEZ, LEANDRO N., and TAMINI, LEANDRO L.

Subjects

*ALBATROSSES, *CONTINENTAL shelf, *CARNOSIC acid, *FISHERIES

Abstract

We present a new record of Salvin's Albatross Thalassarche salvini in waters of the Patagonian continental shelf. During a seabird census on 06 December 2019, a sub-adult individual within a mixed-species flock was observed eating fishery discards. In addition, we review sightings of this species outside its known core range using published records and other information. The species' presence in Argentine waters has possibly been underestimated and further work to elaborate its interaction with fishery fleets is required. [ABSTRACT FROM AUTHOR]

Published

2022

26. Hidden Markov models identify major movement modes in accelerometer and magnetometer data from four albatross species

Author

Melinda G. Conners, Théo Michelot, Eleanor I. Heywood, Rachael A. Orben, Richard A. Phillips, Alexei L. Vyssotski, Scott A. Shaffer, and Lesley H. Thorne

Subjects

Accelerometer, Albatross, Animal movement, Behavioral classification, Dynamic soaring, Hidden Markov models, Biology (General), QH301-705.5

Abstract

Abstract Background Inertial measurement units (IMUs) with high-resolution sensors such as accelerometers are now used extensively to study fine-scale behavior in a wide range of marine and terrestrial animals. Robust and practical methods are required for the computationally-demanding analysis of the resulting large datasets, particularly for automating classification routines that construct behavioral time series and time-activity budgets. Magnetometers are used increasingly to study behavior, but it is not clear how these sensors contribute to the accuracy of behavioral classification methods. Development of effective classification methodology is key to understanding energetic and life-history implications of foraging and other behaviors. Methods We deployed accelerometers and magnetometers on four species of free-ranging albatrosses and evaluated the ability of unsupervised hidden Markov models (HMMs) to identify three major modalities in their behavior: ‘flapping flight’, ‘soaring flight’, and ‘on-water’. The relative contribution of each sensor to classification accuracy was measured by comparing HMM-inferred states with expert classifications identified from stereotypic patterns observed in sensor data. Results HMMs provided a flexible and easily interpretable means of classifying behavior from sensor data. Model accuracy was high overall (92%), but varied across behavioral states (87.6, 93.1 and 91.7% for ‘flapping flight’, ‘soaring flight’ and ‘on-water’, respectively). Models built on accelerometer data alone were as accurate as those that also included magnetometer data; however, the latter were useful for investigating slow and periodic behaviors such as dynamic soaring at a fine scale. Conclusions The use of IMUs in behavioral studies produces large data sets, necessitating the development of computationally-efficient methods to automate behavioral classification in order to synthesize and interpret underlying patterns. HMMs provide an accessible and robust framework for analyzing complex IMU datasets and comparing behavioral variation among taxa across habitats, time and space.

Published

2021

27. Data Quality Influences the Predicted Distribution and Habitat of Four Southern-Hemisphere Albatross Species

Author

Kimberly T. Goetz, Fabrice Stephenson, Andrew Hoskins, Aidan D. Bindoff, Rachael A. Orben, Paul M. Sagar, Leigh G. Torres, Caitlin E. Kroeger, Lisa A. Sztukowski, Richard A. Phillips, Stephen C. Votier, Stuart Bearhop, Graeme A. Taylor, and David R. Thompson

Subjects

albatross, species distribution models, relative environmental suitability, boosted regression tree, habitat suitability, geolocation, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Few studies have assessed the influence of data quality on the predicted probability of occurrence and preferred habitat of marine predators. We compared results from four species distribution models (SDMs) for four southern-hemisphere albatross species, Buller’s (Thalassarche bulleri), Campbell (T. impavida), grey-headed (T. chrysostoma), and white-capped (T. steadi), based on datasets of differing quality, ranging from no location data to twice-daily locations of individual birds collected by geolocation devices. Two relative environmental suitability (RES) models were fit using minimum and maximum preferred and absolute values for each environmental variable based on (1) monthly 50% kernel density contours and background environmental data, and (2) primary literature or expert opinion. Additionally, two boosted regression tree (BRT) models were fit using (1) opportunistic sightings data, and (2) geolocation data from bird-borne electronic tags. Using model-specific threshold values, habitat was quantified for each species and model. Model variables included distance from land, bathymetry, sea surface temperature, and chlorophyll-a concentration. Results from both RES models and the BRT model fit with opportunistic sightings were compared to those from the BRT model fit using geolocation data to assess the influence of data quality on predicted occupancy and habitat. For all species, BRT models outperformed RES models. BRT models offer a predictive advantage over RES models by being able to identify relevant variables, incorporate environmental interactions, and provide spatially explicit estimates of model uncertainty. RES models resulted in larger, less refined areas of predicted habitat for all species. Our study highlights the importance of data quality in predicting the distribution and habitat of albatrosses and emphasises the need to consider the pros and cons associated with different levels of data quality when using SDMs to inform management decisions. Furthermore, we examine the overlap in preferred habitat predicted by each SDM with fishing effort. We discuss the influence of data quality on predicting the wide-scale distributions of pelagic seabirds and how these impacts could result in different protection measures.

Published

2022

28. Effects of El Niño-driven changes in wind patterns on North Pacific albatrosses

Author

Thorne, LH, Conners, MG, Hazen, EL, Bograd, SJ, Antolos, M, Costa, DP, and Shaffer, SA

Subjects

Oceanography, Biological Sciences, Ecology, Earth Sciences, Environmental Sciences, Climate Change Science, Life Below Water, Animal Migration, Animals, Birds, El Nino-Southern Oscillation, Female, Male, Reproduction, wind, seabird, movement, central place forager, albatross, El Niño-Southern Oscillation, General Science & Technology

Abstract

Changes to patterns of wind and ocean currents are tightly linked to climate change and have important implications for cost of travel and energy budgets in marine vertebrates. We evaluated how El Niño-Southern Oscillation (ENSO)-driven wind patterns affected breeding Laysan and black-footed albatross across a decade of study. Owing to latitudinal variation in wind patterns, wind speed differed between habitat used during incubation and brooding; during La Niña conditions, wind speeds were lower in incubating Laysan (though not black-footed) albatross habitat, but higher in habitats used by brooding albatrosses. Incubating Laysan albatrosses benefited from increased wind speeds during El Niño conditions, showing increased travel speeds and mass gained during foraging trips. However, brooding albatrosses did not benefit from stronger winds during La Niña conditions, instead experiencing stronger cumulative headwinds and a smaller proportion of trips in tailwinds. Increased travel costs during brooding may contribute to the lower reproductive success observed in La Niña conditions. Furthermore, benefits of stronger winds in incubating habitat may explain the higher reproductive success of Laysan albatross during El Niño conditions. Our findings highlight the importance of considering habitat accessibility and cost of travel when evaluating the impacts of climate-driven habitat change on marine predators.

Published

2016

29. Foraging behavior links climate variability and reproduction in North Pacific albatrosses

Author

Thorne, Lesley H, Hazen, Elliott L, Bograd, Steven J, Foley, David G, Conners, Melinda G, Kappes, Michelle A, Kim, Hyemi M, Costa, Daniel P, Tremblay, Yann, and Shaffer, Scott A

Subjects

Biological Sciences, Ecology, Climate Action, Albatross, Movement, Reproductive success, Climate, Environmental variability, Environmental Science and Management

Abstract

BackgroundClimate-driven environmental change in the North Pacific has been well documented, with marked effects on the habitat and foraging behavior of marine predators. However, the mechanistic linkages connecting climate-driven changes in behavior to predator populations are not well understood. We evaluated the effects of climate-driven environmental variability on the reproductive success and foraging behavior of Laysan and Black-footed albatrosses breeding in the Northwest Hawaiian Islands during both brooding and incubating periods. We assessed foraging trip metrics and reproductive success using data collected from 2002-2012 and 1981-2012, respectively, relative to variability in the location of the Transition Zone Chlorophyll Front (TZCF, an important foraging region for albatrosses), sea surface temperature (SST), Multivariate ENSO Index (MEI), and the North Pacific Gyre Oscillation index (NPGO).ResultsForaging behavior for both species was influenced by climatic and oceanographic factors. While brooding chicks, both species traveled farther during La Niña conditions, when NPGO was high and when the TZCF was farther north (farther from the breeding site). Models showed that reproductive success for both species showed similar trends, correlating negatively with conditions observed during La Niña events (low MEI, high SST, high NPGO, increased distance to TZCF), but models for Laysan albatrosses explained a higher proportion of the variation. Spatial correlations of Laysan albatross reproductive success and SST anomalies highlighted strong negative correlations (>95 %) between habitat use and SST. Higher trip distance and/or duration during brooding were associated with decreased reproductive success.ConclusionsOur findings suggest that during adverse conditions (La Niña conditions, high NPGO, northward displacement of the TZCF), both Laysan and Black-footed albatrosses took longer foraging trips and/or traveled farther during brooding, likely resulting in a lower reproductive success due to increased energetic costs. Our results link climate variability with both albatross behavior and reproductive success, information that is critical for predicting how albatross populations will respond to future climate change.

Published

2015

30. Airborne Infrasound Makes a Splash.

Subjects

*INFRASONIC waves, *VENUSIAN atmosphere, *TITAN (Satellite), *VENUS (Planet), *AUDIO frequency, *PROBLEM solving, *PLANETARY atmospheres

Abstract

Natural and anthropogenic events may create low frequency sound waves, or infrasound, that can travel for vast distances in planetary atmospheres. They permit the remote monitoring of geophysical activity over local to global scales. Most studies have utilized ground‐based recorders, but it is possible to deploy acoustic sensors to altitudes of over 50 km. Such elevated platforms can capture sounds that their surface analogs cannot access. High altitude balloons and low altitude aerostats are filling this observation gap, but key environments remain out of reach of both of these. Recent work by den Ouden, Smets et al. (2021) addressed this with a new instrumentation platform—a large seabird flying just above the ocean's surface. Their work demonstrates that, infrasound sensing using heavier‐than‐air platforms in windy environments is possible, which has implications both terrestrially (e.g., extending sensor networks over the oceans) and extraterrestrially (proposed or planned missions to Venus and Titan). Plain Language Summary: Many things make sound on Earth and other planets. If these sounds are deep enough, they can travel a long way. Scientists typically record these sounds using instruments that sit on the ground, despite the fact that there is an ocean of air lying above them. Only in the last few years have we begun to explore the sounds in this vast region, and typically we use tethered or free floating balloons to do so. There's some places we can't reach though, like just above the surface of the ocean. den Ouden, Smets et al. (2021) solved this problem by putting sound recorders on wandering albatrosses. The birds flew far and wide across the ocean, recording both nearby and distant sound along the way. This is a big deal, because no one knew it was possible to pick up faint sounds amid the rushing wind caused by the birds' flight. It shows that, we can likely put sound recorders on aircraft such as drones (both low and close to the ground, and high in the sky), getting useful results in the process. Listening in on the atmospheres of Venus and Saturn's moon Titan just became a lot more promising as well. Key Points: A variety of geophysical phenomena generate low frequency acoustic waves, or "infrasound"A seabird‐mounted sensor captured infrasound just above the open oceanInfrasound can be recorded on flying platforms even in windy environments [ABSTRACT FROM AUTHOR]

Published

2021

31. Incubation time, embryonic development and the vomeronasal organ of the Laysan albatross (Phoebastria immutabilis).

Author

Rehorek SJ and Smith TD

Abstract

The effect of lengthened incubation periods on embryonic development, especially vestigial structures, is poorly understood. An example of which is the avesuchian vomeronasal organ (VNO), a nasal chemosensory organ found in many tetrapods but absent in adult avesuchians (crocodilians and birds) in whom it is presumed to be a transitory fetal structure. The Laysan Albatross (Phoebastria immutabilis) has an incubation period of their eggs of about 65 days. This incubation period is twice that of domestic fowl, wherein a putative VNO has been documented as an epithelial thickening. The purpose of this study is to document the development of a putative VNO in the albatross. Serial histological sections of nine albatross embryonic heads, across 6 stages (representing days 19 to 32: stages 31-39), were examined. A paired putative VNO was present as a short, tubular structure in the anterodorsal aspect on either side of the nasal septum from stage 32 onwards, getting steadily longer in later specimens. At the earliest stages, the epithelial walls of the tube resemble a neuroepithelium, but then becomes thinner and simpler in morphology. Based on our available age range, it is unclear whether it persists as a rudimentary structure (like that of the human) or if it is a transitory structure (like in chickens) in these mid embryonic stages. Though future studies must determine the fate of the Laysan albatross VNO (e.g., is it retained postnatally?), the role of incubation period length on embryonic development is a bigger question to be explored., (© 2024 American Association for Anatomy.)

Published

2024

32. Environmental variability directly affects the prevalence of divorce in monogamous albatrosses.

Author

Ventura, Francesco, Granadeiro, José Pedro, Lukacs, Paul M., Kuepfer, Amanda, and Catry, Paulo

Subjects

*DIVORCE, *ALBATROSSES, *OCEAN temperature, *PHYSIOLOGICAL stress

Abstract

In many socially monogamous species, divorce is a strategy used to correct for sub-optimal partnerships and is informed by measures of previous breeding performance. The environment affects the productivity and survival of populations, thus indirectly affecting divorce via changes in demographic rates. However, whether environmental fluctuations directly modulate the prevalence of divorce in a population remains poorly understood. Here, using a longitudinal dataset on the long-lived black-browed albatross (Thalassarche melanophris) as a model organism, we test the hypothesis that environmental variability directly affects divorce. We found that divorce rate varied across years (1% to 8%). Individuals were more likely to divorce after breeding failures. However, regardless of previous breeding performance, the probability of divorce was directly affected by the environment, increasing in years with warm sea surface temperature anomalies (SSTA). Furthermore, our statespace models show that warm SSTA increased the probability of switching mates in females in successful relationships. For the first time, to our knowledge, we document the disruptive effects of challenging environmental conditions on the breeding processes of amonogamous population, potentially mediated by higher reproductive costs, changes in phenology and physiological stress. Environmentally driven divorce may therefore represent an overlooked consequence of global change. [ABSTRACT FROM AUTHOR]

Published

2021

33. Tori lines mitigate seabird bycatch in a pelagic longline fishery.

Author

Gilman, Eric, Chaloupka, Milani, Ishizaki, Asuka, Carnes, Mathew, Naholowaa, Hollyann, Brady, Colby, Ellgen, Sarah, and Kingma, Eric

Subjects

*ELECTRONIC surveillance, *TUNA fisheries, *FISHERIES, *ALBATROSSES, *ELECTRONIC systems

Abstract

Albatross bycatch has been increasing over the past decade in the US tuna longline fishery of the central North Pacific. A controlled field experiment was used to assess the efficacy of bird scaring or tori lines as a seabird bycatch mitigation measure for this fishery in a 3-factor sampling design with other mitigation methods (blue-dyed bait, offal discharge). A multilevel geoadditive Bayesian regression modeling approach was used to assess 3 albatross-gear interaction metrics (attempted contacts, contacts, captures) recorded for each longline set using an electronic monitoring system. We found albatross contacts with baited hooks were ca. 3 times (95% highest posterior density interval [HDI] 1–7) less likely for sets equipped with tori lines rather than without tori lines. Attempts to contact baited hooks were ca. 2 times (95% HDI 1–4) less likely for tori line-equipped sets. Albatrosses were also less likely to be captured in tori line sets but captures were too few to support strong inference compared with the contact rates. Tori lines were therefore found to be an effective management measure to mitigate albatross interactions in this fishery. Offal discharge during setting, however, was associated with higher seabird interactions—but that inference was not strong since offal discharge and blue-dyed bait were confounded treatments in some sets. Nonetheless, it was apparent that neither offal discharge nor blue-dyed bait was helpful in reducing albatross interactions in this trial and so the efficacy of those measures warrants further experimental investigation. [ABSTRACT FROM AUTHOR]

Published

2021

34. The Albatross and the Territorial Expansion of the Japanese Empire

Author

Hiraoka, Akitoshi, Yagasaki, Noritaka, Editor-in-chief, Murayama, Yuji, Managing editor, Arai, Yoshio, Series editor, Ishikawa, Yoshitaka, Series editor, Oguchi, Takashi, Series editor, Sugai, Toshihiko, Series editor, Haruyama, Shigeko, Series editor, Matsumoto, Jun, Series editor, Suzuki, Atsushi, Series editor, and Hiraoka, Akitoshi

Published

2018

35. Cell motility in cancer, crucial events, criticality, and Lévy walks.

Author

Shah, Yawer H., Palatella, Luigi, Mahmoodi, Korosh, Santonocito, Orazio S., Morelli, Mariangela, Ferri, Gianmarco, Mazzanti, Chiara M., Grigolini, Paolo, and West, Bruce J.

Subjects

*LEVY processes, *CANCER cell motility, *PROBABILITY density function, *TIME series analysis, *RANDOM walks

Abstract

The analysis of glioblastoma (GB) cell locomotion and its modeling inspired by Lévy random walks is presented herein. We study such walks occurring on a two-dimensional plane where the walk is similar to the motion of a bird flying with a constant velocity, but with random changes of direction in time. The intelligence of the bird is signaled by the instantaneous changes of flying direction, which become invisible in the time series obtained by projecting the 2D walk either on the x -axis or y -axis. We establish that the projected 1D time series share the statistical complexity of time series frequently used to monitor physiological processes, shedding light on the role of crucial events (CE-s) in pathophysiology. Such CE-s are signified by abrupt changes of flying direction which are invisible in the 1D physiological time series. We establish a connection between the complex scaling index δ generated by the CE-s through μ R = 2 − δ , where μ R is the inverse power law index of the probability density function of the time interval between consecutive failures of the process of interest. We argue that the identification of empirical indices along with their theoretical relations afford important measures to control cancer. • Motility of patient derived glioblastoma cells using Diffusion Entropy Analysis. • Random changes in direction of cells identified as crucial events. • 1D projections of a 2D Lévy walk yields correct scaling with invisible CE-s. • Lévy walks generate IPL index μ R , measure for duration of organization. [ABSTRACT FROM AUTHOR]

Published

2024

36. EXTRAPOLATION OF COLERIDGE'S THE RIME OF THE ANCIENT MARINER IN THE COVID-19 SCENARIO.

Author

Singh, Ganga Nand and Karn, Shivani

Subjects

COVID-19 pandemic, SUFFERING, ZOONOSES, EPIDEMICS

Abstract

Published in 1798, Coleridge's "The Rime of the Ancient Mariner" is the precious gem of English poetry. The verse demonstrates inexorable sea expanses, human suffering, crime and punishment, and of course, the human relation with the natural world. With the dramatic disruption due to coronavirus, the poem is having a new meaning and purpose. In this current unsteady and nightmarish situation, the poem has been rightly acclaimed as a 'modern fable'. The Rime of the Ancient Mariner recounts the experiences of a sailor who commits the heinous crime of killing innocent Albatross and undergoes unutterable agony on his sea voyage. The universality of the poem cannot be overlooked in the present scenario as not any symbolic traveler but the people from the whole worldfeel a bit lost in the sea odyssey and ordeals full of covid-19 variants and diverse symptoms. The Ancient Mariner commits a crime against the divine law of Nature; consequently, there is an upheaval in the world of nature. Similarly, human beings have also challenged Nature and are compelled to suffer for their crime. The COVID-19 pandemic as per the available sources originated in the seafood wholesale market in central Wuhan China and quickly spread to various countries. Although, the exact origin of the COVID-19 is still unknown, specialist blames undue human activity that enabled this zoonotic disease to jump to people. [ABSTRACT FROM AUTHOR]

Published

2021

37. Behavioural analysis of marine predator movements in relation to heterogeneous environments

Author

Humphries, Nicolas Edmund and Sims, David

Subjects

591.5, optimal foraging, search strategies, behavioural ecology, sharks, tuna, albatross, Levy flight, fractal, simulation

Abstract

An understanding of the spatio-temporal dynamics of marine predator populations is essential for the sustainable management of marine resources. Tagging studies are providing ever more information about the movements and migrations of marine predators and much has been learned about where these predators spend their time. However little is known about their underlying motivations, making it difficult to make predictions about how apex predators will respond to changing environments. While much progress has been made in behavioural ecology through the use of optimality models, in the marine environment the necessary costs and benefits are difficult to quantify making this approach less successful than with terrestrial studies. One aspect of foraging behaviour that has proved tractable however is the optimisation of random searches. Work by statistical physicists has shown that a specialised movement, known as Lévy flight, can optimise the rate of new prey patch encounters when new prey patches are beyond sensory range. The resulting Lévy flight foraging (LFF) hypothesis makes testable predictions about marine predator search behaviour that can be addressed with the theoretical and empirical studies that form the basis of this thesis. Results presented here resolve the controversy surrounding the hypothesis, demonstrating the optimality of Lévy searches under a broader set of conditions than previously considered, including whether observed Lévy patterns are innate or emergent. Empirical studies provide robust evidence for the prevalence of Lévy search patterns in the movements of diverse marine pelagic predators such as sharks, tunas and billfish as well as in the foraging patterns of albatrosses, overturning a previous study. Predictions from the LFF hypothesis concerning fast moving prey are confirmed leading to simulation studies of ambush predator’s activity patterns. Movement analysis is then applied to the assessment of by-catch mitigation efforts involving VMS data from long-liners and simulated sharks.

Published

2013

38. Successful Long-Distance Breeding Range Expansion of a Top Marine Predator

Author

Robert William Henry, Scott A. Shaffer, Michelle Antolos, María Félix-Lizárraga, David G. Foley, Elliott L. Hazen, Yann Tremblay, Daniel P. Costa, Bernie R. Tershy, and Donald A. Croll

Subjects

biogeography, colonization, North Pacific, climate change, albatross, top marine predator, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Little is known about the effects of large-scale breeding range expansions on the ecology of top marine predators. We examined the effects of a recent range expansion on the breeding and foraging ecology of Laysan albatrosses (Phoebastria immutabilis). Laysan albatrosses expanded from historical breeding colonies in the Central Pacific Ocean to the Eastern Pacific Ocean around central Baja California, Mexico, leading to a 4,000-km shift from colonies located adjacent to the productive transition zone in the Central Pacific to colonies embedded within the eastern boundary current upwelling system of the Eastern Pacific California Current. We use electronic tagging and remote sensing data to examine the consequences of this range expansion on at-sea distribution, habitat use, foraging habitat characteristics, and foraging behavior at sea by comparing birds from historic and nascent colonies. We found the expansion resulted in distinct at-sea segregation and differential access to novel oceanographic habitats. Birds from the new Eastern Pacific colony on Guadalupe Island, Mexico have reduced ranges, foraging trip lengths and durations, and spend more time on the water compared to birds breeding in the Central Pacific on Tern Island, United States. Impacts of the range expansion to the post-breeding season were less pronounced where birds maintained some at-sea segregation but utilized similar habitat and environmental variables. These differences have likely benefited the Eastern Pacific colony which has significantly greater reproductive output and population growth rates. Laysan albatrosses have the plasticity to adapt to distinctly different oceanographic habitats and also provide insight on the potential consequences of range shifts to marine organisms.

Published

2021

39. Plastic ingestion is an underestimated cause of death for southern hemisphere albatrosses

Author

Lauren Roman, Richelle Grace Butcher, David Stewart, Stuart Hunter, Megan Jolly, Phil Kowalski, Britta Denise Hardesty, and Baukje Lenting

Subjects

albatross, balloon, bottle, by‐catch, conservation, marine debris, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Albatrosses are among the world's most imperiled vertebrates, with 73% of species threatened with extinction. Ingestion of plastic is a well‐recognized threat among three North Pacific species, but lesser known in the southern hemisphere, where it is considered a minor threat. As plastic entering the ocean is increasing while albatross populations decline, the threat of ocean plastic to albatross populations may be underestimated. We present case studies of 107 beach‐cast albatrosses of twelve species, received by wildlife hospitals in Australia and New Zealand, and estimate plastic ingestion and mortality rates for albatrosses in the southern hemisphere. Ingested plastic was present in 5.6% of individuals, and the cause of death in half of these cases. We estimate ingestion of plastic may cause 3.4–17.5% of nearshore mortalities and is worth consideration as a substantial threat to albatross populations. We provide clinical findings and “checklist” methodologies for identifying potential cases of foreign‐body gastrointestinal obstruction. We suggest practical policy responses, empowering decision makers to reduce albatross mortality from anthropogenic sources.

Published

2021

40. Plastic ingestion is an underestimated cause of death for southern hemisphere albatrosses.

Author

Roman, Lauren, Butcher, Richelle Grace, Stewart, David, Hunter, Stuart, Jolly, Megan, Kowalski, Phil, Hardesty, Britta Denise, and Lenting, Baukje

Subjects

*CAUSES of death, *ALBATROSSES, *PLASTICS, *BIOLOGICAL extinction, *DEATH rate

Abstract

Albatrosses are among the world's most imperiled vertebrates, with 73% of species threatened with extinction. Ingestion of plastic is a well‐recognized threat among three North Pacific species, but lesser known in the southern hemisphere, where it is considered a minor threat. As plastic entering the ocean is increasing while albatross populations decline, the threat of ocean plastic to albatross populations may be underestimated. We present case studies of 107 beach‐cast albatrosses of twelve species, received by wildlife hospitals in Australia and New Zealand, and estimate plastic ingestion and mortality rates for albatrosses in the southern hemisphere. Ingested plastic was present in 5.6% of individuals, and the cause of death in half of these cases. We estimate ingestion of plastic may cause 3.4–17.5% of nearshore mortalities and is worth consideration as a substantial threat to albatross populations. We provide clinical findings and "checklist" methodologies for identifying potential cases of foreign‐body gastrointestinal obstruction. We suggest practical policy responses, empowering decision makers to reduce albatross mortality from anthropogenic sources. [ABSTRACT FROM AUTHOR]

Published

2021

41. Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour

Author

Adrien Pajot, Alexandre Corbeau, Aurélie Jambon, and Henri Weimerskirch

Subjects

albatross, diel activity pattern, Diomedea, flight behavior, foraging activity, moon illumination, Biology (General), QH301-705.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The first year of life is a period of high mortality in animals. Reduced foraging capacities of naive individuals might be the primary cause of their mortality. These capacities are supposed to be progressively acquired during the first months of life. In this study, we investigate the ontogeny of flight capacities, by day and night, of first‐year individuals, and compare it with adults from two closely related species of great albatrosses: Amsterdam Diomedea amsterdamensis and wandering Diomedea exulans albatrosses which forage in different environmental conditions. We used 71 tracks of 71 juvenile birds and 141 of 116 incubating adults to compare both age categories. In order to explore the effect of moon light on night activity, we elaborated a new formula which improves the precision of the proxy of moon illumination. By day, we found that juveniles of both species reach some adult foraging capacities in less than two months. By night, albatrosses have reduced activity increasing during the first weeks at sea for juveniles and changing in accordance with moon illumination for both juveniles and adults. A peak of flight activity at dawn and dusk was apparent for both species. Interspecific comparison underlined that Amsterdam albatrosses were more active than wandering albatrosses, suggesting a difference in food and foraging strategy. Overall, we highlighted how life history traits, environmental conditions and time of the day affect the foraging activity of two related species of seabirds.

Published

2021

42. Hidden Markov models identify major movement modes in accelerometer and magnetometer data from four albatross species.

Author

Conners, Melinda G., Michelot, Théo, Heywood, Eleanor I., Orben, Rachael A., Phillips, Richard A., Vyssotski, Alexei L., Shaffer, Scott A., and Thorne, Lesley H.

Subjects

ACCELEROMETERS, HIDDEN Markov models, MAGNETOMETERS, ROBUST control, DATA analysis

Abstract

Background: Inertial measurement units (IMUs) with high-resolution sensors such as accelerometers are now used extensively to study fine-scale behavior in a wide range of marine and terrestrial animals. Robust and practical methods are required for the computationally-demanding analysis of the resulting large datasets, particularly for automating classification routines that construct behavioral time series and time-activity budgets. Magnetometers are used increasingly to study behavior, but it is not clear how these sensors contribute to the accuracy of behavioral classification methods. Development of effective classification methodology is key to understanding energetic and life-history implications of foraging and other behaviors. Methods: We deployed accelerometers and magnetometers on four species of free-ranging albatrosses and evaluated the ability of unsupervised hidden Markov models (HMMs) to identify three major modalities in their behavior: 'flapping flight', 'soaring flight', and 'on-water'. The relative contribution of each sensor to classification accuracy was measured by comparing HMM-inferred states with expert classifications identified from stereotypic patterns observed in sensor data. Results: HMMs provided a flexible and easily interpretable means of classifying behavior from sensor data. Model accuracy was high overall (92%), but varied across behavioral states (87.6, 93.1 and 91.7% for 'flapping flight', 'soaring flight' and 'on-water', respectively). Models built on accelerometer data alone were as accurate as those that also included magnetometer data; however, the latter were useful for investigating slow and periodic behaviors such as dynamic soaring at a fine scale. Conclusions: The use of IMUs in behavioral studies produces large data sets, necessitating the development of computationally-efficient methods to automate behavioral classification in order to synthesize and interpret underlying patterns. HMMs provide an accessible and robust framework for analyzing complex IMU datasets and comparing behavioral variation among taxa across habitats, time and space. [ABSTRACT FROM AUTHOR]

Published

2021

43. Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour.

Author

Pajot, Adrien, Corbeau, Alexandre, Jambon, Aurélie, and Weimerskirch, Henri

Subjects

*ALBATROSSES, *ANIMAL mortality, *ONTOGENY, *SPECIES, *SEA birds, *SEA turtles, *LIFE history theory

Abstract

The first year of life is a period of high mortality in animals. Reduced foraging capacities of naive individuals might be the primary cause of their mortality. These capacities are supposed to be progressively acquired during the first months of life. In this study, we investigate the ontogeny of flight capacities, by day and night, of first‐year individuals, and compare it with adults from two closely related species of great albatrosses: Amsterdam Diomedea amsterdamensis and wandering Diomedea exulans albatrosses which forage in different environmental conditions. We used 71 tracks of 71 juvenile birds and 141 of 116 incubating adults to compare both age categories. In order to explore the effect of moon light on night activity, we elaborated a new formula which improves the precision of the proxy of moon illumination. By day, we found that juveniles of both species reach some adult foraging capacities in less than two months. By night, albatrosses have reduced activity increasing during the first weeks at sea for juveniles and changing in accordance with moon illumination for both juveniles and adults. A peak of flight activity at dawn and dusk was apparent for both species. Interspecific comparison underlined that Amsterdam albatrosses were more active than wandering albatrosses, suggesting a difference in food and foraging strategy. Overall, we highlighted how life history traits, environmental conditions and time of the day affect the foraging activity of two related species of seabirds. [ABSTRACT FROM AUTHOR]

Published

2021

44. Spatial and temporal aggregation of albatross chick mortality events in the Falklands suggests a role for an unidentified infectious disease.

Author

Ventura, Francesco, Granadeiro, José Pedro, Matias, Rafael, and Catry, Paulo

Subjects

ALBATROSSES, COMMUNICABLE diseases, CHICKS, MORTALITY, CHILD mortality, ANIMAL mortality, ETIOLOGY of diseases

Abstract

In the context of environmental change, determining the causes underpinning unusual mortality events of vertebrate species is a crucial conservation goal. This is particularly true for polar and sub-polar colonial seabirds, often immunologically naïve to new and emerging diseases. Here, we investigate the patterns of black-browed albatross (Thalassarche melanophris) chick mortality events unrelated to predation recorded between the 2004/05 and 2019/2020 breeding seasons in four colonies across the species range in the Falklands. The prevalence of these mortality events was highly variable across years, causing the death of between 3 and 40% of all chicks in the studied plots. With few exceptions, mortality was patchily distributed. Using clustering methodologies, we identified the spatio-temporal mortality clusters based on the nest locations and chick death date. Using generalised linear models and generalised additive mixed-effects models we found that chicks nearer the first mortality event were predicted to die before those in more distant nests. The probability of death increased with age and was highest for chicks close to nests where a chick had died previously. Our findings, along with the symptoms consistently exhibited by most deceased chicks in the study, strongly suggest the prevalence of a widespread infectious disease, potentially with a common aetiology, both in areas with regular and with very rare human presence. Understanding the causes driving these disease-related mortality events, which seem different from the outbreaks documented in the literature, is a conservation priority for the Falklands black-browed albatross population, which comprises over 70% of the species global population. [ABSTRACT FROM AUTHOR]

Published

2021

45. The past and future role of conservation science in saving biodiversity

Author

David R Williams, Andrew Balmford, and David S Wilcove

Subjects

albatross, bycatch, conservation action, conservation responses, effectiveness, literature review, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Global biodiversity losses continue despite tremendous growth in the volume of conservation science and many local successes. Research that can achieve conservation science's aims—arresting declines in biodiversity and preventing extinctions—is therefore of ever greater importance. Here, we ask whether conservation science, as currently performed, is progressing in such a way as to maximize its impact. We present a simple framework for how effective conservation research could progress, from identifying problems to diagnosing their proximate and ultimate causes, and from proposing, to designing, implementing, and testing responses. We then demonstrate that for three well‐known examples—South Asian vultures, whooping cranes, and bycatch of procellariform seabirds—published studies appear to follow this sequence, with considerable benefits. However, for a representative sample of the wider conservation literature, we find no evidence of such a progression. Instead, the vast majority of papers remain focused on describing the state of nature or on mechanisms directly causing changes, with very little research on designing or implementing conservation responses. This lack of research on the sorts of questions that might most help conservation science deliver its stated mission strongly suggests we will struggle to translate the huge increase in research activity into real‐world benefits.

Published

2020

46. The past and future role of conservation science in saving biodiversity.

Author

Williams, David R, Balmford, Andrew, and Wilcove, David S

Subjects

*BIODIVERSITY, *VULTURES, *BYCATCHES, *CRANES (Birds)

Abstract

Global biodiversity losses continue despite tremendous growth in the volume of conservation science and many local successes. Research that can achieve conservation science's aims—arresting declines in biodiversity and preventing extinctions—is therefore of ever greater importance. Here, we ask whether conservation science, as currently performed, is progressing in such a way as to maximize its impact. We present a simple framework for how effective conservation research could progress, from identifying problems to diagnosing their proximate and ultimate causes, and from proposing, to designing, implementing, and testing responses. We then demonstrate that for three well‐known examples—South Asian vultures, whooping cranes, and bycatch of procellariform seabirds—published studies appear to follow this sequence, with considerable benefits. However, for a representative sample of the wider conservation literature, we find no evidence of such a progression. Instead, the vast majority of papers remain focused on describing the state of nature or on mechanisms directly causing changes, with very little research on designing or implementing conservation responses. This lack of research on the sorts of questions that might most help conservation science deliver its stated mission strongly suggests we will struggle to translate the huge increase in research activity into real‐world benefits. [ABSTRACT FROM AUTHOR]

Published

2020

47. No change in Atlantic Yellow-nosed Albatross (Thalassarche chlororhynchos) egg size over 160 years.

Author

Bond, Alexander L., McClelland, Gregory T.W., Cuthbert, Richard J., Glass, Trevor, Repetto, Julian, and Ryan, Peter G.

Subjects

*ALBATROSSES, *EGGS, *CLIMATE change, *EGG incubation

Abstract

Biotic and abiotic conditions in the world's oceans have changed considerably in the last two centuries as a result of anthropogenic factors, including whaling, sealing, fishing, and climate change. For species that have limited variation in life-history traits, life-history characteristics may impede the ability to adapt to changing environmental conditions. Albatrosses are one such group, where breeding investment is limited to a single egg every one or two years. At a coarse level, individuals may decide whether to breed or not, or whether to incubate an egg or not, but one of the only finer-scale adjustment in parental investment involves altering egg size, along with parental foraging and chick provisioning. We investigated changes in egg size in Atlantic Yellow-nosed Albatrosses (Thalassarche chlororhynchos) breeding at Tristan da Cunha, South Atlantic Ocean, from 1856 to 2015. We found no change in egg length, or breadth, which may suggest that with regards to this life-history parameter, Atlantic Yellow-nosed Albatrosses appear to have been able to buffer the effects of the trophic, climatic and oceanographic changes in the South Atlantic Ocean. [ABSTRACT FROM AUTHOR]

Published

2020

48. A Riddle Wrapped in a Mystery Inside an Enigma: Ivan the Terrible.

Author

Halperin, Charles J.

Abstract

Nine of the ten articles in this Forum critique and/or expand upon themes, conclusions, or interpretations in Charles J. Halperin's Ivan the Terrible: Free to Reward and Free to Punish (2019), albeit in greatly varying proportion. The tenth addresses how to teach from the book. The quality of the articles speaks for itself. The range of the themes addressed speaks to the scope of Ivan's reign. All the contributions to the Forum constitute valuable contributions to scholarship on Ivan, but to further discussion the remarks below concentrate on areas of disagreement. Much research remains to be done, but it is doubtful that historians will ever fully understand Ivan the Terrible and his reign. Ivan will always remain "a riddle wrapped in a mystery inside an enigma," and consensus among historians will forever remain an elusive dream. [ABSTRACT FROM AUTHOR]

Published

2020

49. Interspecific variability in plastic ingested by Procellariiformes off the Uruguayan coast.

Author

Muñoz, Joaquín, Forselledo, Rodrigo, Domingo, Andrés, and Jiménez, Sebastián

Subjects

PLASTICS, ALIMENTARY canal, BODY size, PETRELS, ALBATROSSES

Abstract

We assessed the interspecific variability in plastic ingested by albatrosses and petrels using bycaught birds from fisheries of the Southwest Atlantic. From 107 stomachs examined, 4.17 % of the albatrosses and 62.86 % of the petrels contained plastics. Macronectes halli and Ardenna gravis had 100 % of occurrence. They were followed by Procellaria conspicillata (75 %), Procellaria aequinoctialis (47.62 %), T. melanophris (4.35 %) and T. chlororhynchos (0 %). The most common groups of plastics by size, type and color, were mesoplastics (5–20 mm), user plastics and white-clear items, respectively. Larger species tend to ingest larger items with greater surfaces. Together with evidence from other studies, our results indicate that interspecific differences in the occurrence and the dimensions of plastics appear to be associated with digestive tract morphology, foraging techniques, body size, interaction with fishing vessels, and with the availability of plastics at the sea surface. • We assessed the ingestion of plastic by albatrosses and petrels off the Uruguayan coast. • From 107 specimens examined, 23.36 % contained plastic items in their stomachs. • The frequency of occurrence of plastics was 62.86 % for petrels and 4.17 % for albatrosses. • User plastics, mesoplastics and white-clear items were most common type of plastics. • Larger species tend to ingest larger items with greater surfaces. [ABSTRACT FROM AUTHOR]

Published

2023

50. Comparison of light- and SST-based geolocation with satellite telemetry in free-ranging albatrosses

Author

Shaffer, Scott A, Tremblay, Y, Awkerman, J A, Henry, R W, Teo, SLH, Anderson, D J, Croll, D A, Block, B A, and Costa, D P

Subjects

biologging, telemetry, tracking, SST, albatross, seabird, Laysan, black-footed, geolocation, archival tag

Abstract

Light-based archival tags are increasingly being used on free- ranging marine vertebrates to study their movements using geolocation estimates. These methods use algorithms that incorporate threshold light techniques to determine longitude and latitude. More recently, researchers have begun using sea surface temperature (SST) to determine latitude in temperate regions. The accuracy and application of these algorithms have not been validated on free-ranging birds. Errors in both geolocation methods were quantified by double-tagging Laysan (Phoebastria immutabilis Rothschild) and black-footed (P. nigripes Audubon) albatrosses with both leg-mounted archival tags that measured SST and ambient light, and satellite transmitters. Laysan albatrosses were captured and released from breeding colonies on Tern Island, northwestern Hawaiian Islands (23 degrees 52'N, 166 degrees 17'W) and Guadalupe Island, Mexico (28 degrees 31'N, 118 degrees 10'W) and black-footed albatrosses from Tern Island. Studies were carried out between December 2002 and March 2003. For all birds combined, the mean +/- SD great circle (GC) distance between light-based locations and satellite-derived locations was 400 +/- 298 km (n=131). Errors in geolocation positions were reduced to 202 +/- 171 km (n=154) when light-based longitude and SST-based latitude (i.e. SST/light) were used to establish locations. The SST/light method produced comparable results for two Laysan albatross populations that traveled within distinctly different oceanic regions (open ocean vs more coastal) whereas light-based methods produced greater errors in the coastal population. Archival tags deployed on black-footed albatrosses returned a significantly higher proportion of lower-quality locations, which was attributed to interference of the light sensor on the tag. Overall, the results demonstrate that combining measures of light-based longitude and SST-based latitude significantly reduces the error in location estimates for albatrosses and can provide valid latitude estimates during the equinoxes, when light-based latitude measurements are indeterminate.

Published

2005