Michelle M. Risi scite author profile

The use of miniaturized video cameras to study the at-sea behavior of flying seabirds has increased in recent years. These cameras allow researchers to record several behaviors that were not previously possible to observe. However, video recorders produce large amounts of data and videos can often be timeconsuming to analyze. We present a new technique using open-source software to extract bank angles from bird-borne video footage. Bank angle is a key facet of dynamic soaring, which allows albatrosses and petrels to efficiently search vast areas of ocean for food. Miniaturized video cameras were deployed on 28 Wandering Albatrosses (Diomedea exulans) on Marion Island (one of the two Prince Edward Islands) from 2016 to 2018. The OpenCV library for the Python programming language was used to extract the angle of the horizon relative to the bird's body (= bank angle) from footage when the birds were flying using a series of steps focused on edge detection. The extracted angles were not significantly different from angles measured manually by three independent observers, thus being a valid method to measure bank angles. Image quality, high wind speeds, and sunlight all influenced the accuracy of angle estimates, but post-processing eliminated most of these errors. Birds flew most often with cross-winds (58%) and tailwinds (39%), resulting in skewed distributions of bank angles when birds turned into the wind more often. Higher wind speeds resulted in extreme bank angles (maximum observed was 94°). We present a novel method for measuring postural data from seabirds that can be used to describe the fine-scale movements of the dynamic-soaring cycle. Birds appeared to alter their bank angle in response to varying wind conditions to counter wind drift associated with the prevailing westerly winds in the Southern Ocean. These data, in combination with fine-scale positional data, may lead to new insights into dynamic-soaring flight. del viento para contrarrestar la deriva del viento asociada con los vientos predominantes del oeste en el Oc eano Austral. Estos datos, en combinaci on con datos posicionales a escala fina, pueden conducir a nuevas ideas sobre el vuelo de planeo din amico.

show abstract

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

Oppel

Clark

Risi

et al. 2022

Journal of Applied Ecology

View full text Add to dashboard Cite

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.

show abstract

Possible synonymies ofZoanthus(Anthozoa: Hexacorallia) species on the east coast of South Africa with Pacific congeners

Risi

Macdonald

2014

Systematics and Biodiversity

View full text Add to dashboard Cite

Zoanthids cover large patches on the rocky shores of KwaZulu-Natal and northern parts of the Eastern Cape, South Africa. No molecular identification has been carried out on these organisms on the South African shoreline. Zoanthus sansibaricus Carlgren, 1900 has a global distribution and has been reported having numerous morphotypes in terms of polyp shape, size, colour and oral disk colour. The molecular characteristics of three Zoanthus species, Z. sansibaricus, Zoanthus durbanensis Carlgren, 1938 and Zoanthus natalensis Carlgren, 1938, were investigated to determine whether they are three separate species or merely morphotypes of one another. Samples were collected between May 2012 and July 2013, ranging from Umgazana (31.7024 S, 29.4175 E) to Ballito (29.5451 S, 31.2160 E) on the east coast of South Africa and at one site in Libanona, Madagascar (25.0421 S, 46.9952 E). Cytochrome oxidase subunit one (COI), mitochondrial 16S ribosomal DNA (mt 16S rDNA) and the nuclear internal transcribed spacer region of ribosomal DNA (ITS rDNA) were used in this study. The COI sequences had little variation between species groups, while the mt 16S rDNA tree showed that Z. sansibaricus matched with sequences of Z. sansibaricus from the Pacific. Zoanthus natalensis formed a haplotype with Zoanthus kuroshio Reimer & Ono, 2006 and Z. durbanensis formed a haplotype with Zoanthus vietnamensis Pax & M€ uller, 1957. The ITS rDNA sequences were very similar for these four species: Z. natalensis, Z. kuroshio, Z. durbanensis and Z. vietnamensis. The results of this study indicate that Z. natalensis is likely conspecific to Z. kuroshio and Z. durbanensis is likely conspecific to Z. vietnamensis. This is only a tentative hypothesis as no formal morphological analyses were done on proposed conspecifics. This work highlights the potential of synonymies that can be found globally when investigating new areas.

show abstract

Mouse eradication is required to prevent local extinction of an endangered seabird on an oceanic island

Jones

Risi

Osborne

et al. 2021

Animal Conservation

View full text Add to dashboard Cite

Petrels (Procellariidae) are a highly diverse family of seabirds, many of which are globally threatened due to the impact of invasive species on breeding populations. While predation by invasive cats and rats has led to the extinction of petrel populations, the impact of invasive house mice Mus musculus is slower and less well documented. However, mice impact small burrow-nesting species such as MacGillivray's prion Pachyptila macgillivrayi, a species classified as endangered because it has been extirpated on islands in the Indian Ocean by introduced rodents. We use historic abundance data and demographic monitoring data from 2014 to 2020 to predict the population trajectory of MacGillivray's prion on Gough Island with and without a mouse eradication using a stochastic integrated population model. Given very low annual breeding success (0.01 fledglings per breeding pair in 'poor' years (83%) or 0.38 in 'good' years (17%), n = 320 nests over 6 years) mainly due to mouse predation, our model predicted that the population collapsed from ~3.5 million pairs in 1956 to an estimated 175,000 pairs in 2020 despite reasonably high adult survival probability ( = 0.901). Based on these parameters, the population is predicted to decline at a rate of 9% per year over the next 36 years without a mouse eradication, with a 31% probability that by 2057 the MacGillivray' prion population would become extremely vulnerable to extinction. Our models predict population stability ( = 1.01) and a lower extinction risk (<10%) if mouse eradication on Gough Island restores annual breeding success to 0.519, which is in line with that of closely-related species on predator-free islands. This study demonstrates the devastating impacts that introduced house mice can have on small burrowing petrels and highlights the urgency to eradicate invasive mammals from oceanic islands.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Michelle M. Risi

First evidence of mouse attacks on adult albatrosses and petrels breeding on sub-Antarctic Marion and Gough Islands

Automated extraction of bank angles from bird‐borne video footage using open‐source software

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

Possible synonymies ofZoanthus(Anthozoa: Hexacorallia) species on the east coast of South Africa with Pacific congeners

Mouse eradication is required to prevent local extinction of an endangered seabird on an oceanic island

Contact Info

Product

Resources

About