For the last six years, since the inauguration of World Albatross Day on 19 June 2020, logos marking the event have been produced by graphic designer Geoff Tyler.  Versions have been produced in the three ACAP official languages of English, French and Spanish; in some years Japanese, Portuguese and a few other languages have been added.

This year a new design, in horizontal and vertical layouts, has been produced for WAD2026 and its theme of “Habitat Restoration” by illustrator Namasri “Namo” Niumim, who resides in Bangkok, Thailand.  Namo is not new to ACAP, as she has produced all the ACAP Species Infographics to date.

French, Portuguese and Spanish versions of the WAD2026 logo will follow soon.  They will be available for downloading from here.

John Cooper, Emeritus Information Officer, Agreement on the Conservation of Albatrosses and Petrels, 19 March 2026

Northern Royal Albatross at sea for World Albatross Day 2020, artwork by Kitty Harvill after a photograph by Laurie Smaglick Johnson

Nicholas Daudt (Department of Marine Science, University of Otago, Dunedin, Aotearoa, New Zealand) and colleagues have published open access in the journal Estuarine, Coastal and Shelf Science on seabird assemblages off the east coast of South Island, New Zealand.  Albatrosses and petrels tended to occur offshore (>35 km).

The paper’s abstract follows:

“Understanding the relationships between organisms and their environment is crucial to determining important areas for conservation and monitoring. In rapidly changing oceans, one approach to quantify these relationships is to identify species assemblages. This study used a nine year dataset of seabird observations sampled approximately every two months during a cross-shelf transect to describe assemblages at the Subtropical Frontal Zone, in southeast Aotearoa/New Zealand. During 36 voyages, 47 species and a minimum of 69,025 individual birds were recorded. We used multivariate, model-based ordinations to identify assemblages against spatial (distance from the coast), temporal (season) and environmental (water mass) predictors. The multivariate models suggest that the distance from the coast and seasons explain most of the observed variability. Gulls and shags influenced a coastal assemblage (25 km from the coast), and most albatrosses and petrels were only recorded offshore (35 km). Seasons strongly influenced the assemblages, with 31 of the 39 analysed species classified as migratory or dispersive. Over the nine year dataset, the probability of occurrence of nearly 40% of the analysed species changed, indicating possible changes in the assemblage structure and species’ ranges. This study shows the importance of accounting for seasonality when describing assemblages in regions supporting high proportions of migratory and/or wide-ranging species. The observed changes in the probability of occurrence of several species may be the first evidence for the effects of oceanographic changes recently described for the southwest Pacific Ocean due to above-average warming caused by climate change.”

With thanks to the Pacific Seabird Group.

Reference:

Daudt, N.W., Loh, G, Currie, K.I., Schofield, M.R., Smith, R.O., Woehler, E.J., Bugoni, L. & Rayment, W.J. 2025.  Changing species occurrences at the Subtropical Frontal Zone.  Estuarine, Coastal and Shelf Science 323, 109405. doi.org/10.1016/j.ecss.2025.109405.

John Cooper, Emeritus Information Officer, Agreement on the Conservation of Albatrosses and Petrels, 18 March 2026

Female Northern Royal Albatross LYL (Lime-Yellow-Lime) stands over her newly laid egg in November 2025, with male partner behind, photograph by Department of Conservation Ranger Scott

Hatching statistics are in for the intensively managed colony of globally Endangered Northern Royal Albatrosses Diomedea sanfordi at Taiaroa Head/Pukekura on New Zealand’s South Island.

Of the 47 eggs laid in the current 2025/26 breeding season, a record 40 chicks have hatched giving a hatching success of 85.1%.  One chick died when two days old, with the remaining 39 currently transcending to the post-guard stage.

The 2025/26 Royal Cam chick at 46 days of age spreads it’s still stubby wings

Watch the pair WYL and BOK rearing their male chick, which hatched on 22 January, throughout the breeding season via the 24-hour Royal Cam.

Information from the New Zealand Department of Conservation Facebook page.

John Cooper, Emeritus Information Officer, Agreement on the Conservation of Albatrosses and Petrels, 17 March 2026

A Black Petrel off North Cape, New Zealand, photograph by Kirk Zufelt

Nicholas Daudt (Department of Marine Science, University of Otago, Dunedin, Aotearoa, New Zealand) and colleagues have published open access in the Journal of Marine Systems giving the first quantitative data on seabird assemblages off northeast Aotearoa/New Zealand.  Total seabird biomass was strongly influenced by the seasonal occurrence of four medium-sized migratory procellariiforms, including the ACAP-listed and globally Vulnerable Black Petrel Procellaria parkinsoni.

The paper’s abstract follows:

“Migratory species may influence structural components of species assemblages, such as biomass and diversity patterns. A total of 10 ship-based, strip-transect seabird surveys were undertaken in all seasons (2019–2024) off the northeast coast of Northland, Aotearoa/New Zealand. Almost all seabird species recorded were migratory or wide-ranging dispersive (23 of 25). Multivariate model-based ordinations revealed that season primarily explained species assemblages, while including environmental variables such as sea surface temperature and chlorophyll-a (useful proxies for studying seabird distribution) offered little extra explanatory power at the assemblage level. There was no clear spatial pattern in the assemblages, suggesting that the study area was used uniformly by the species present at the time. The total seabird biomass present was strongly influenced by the seasonal occurrence of four medium-sized, migratory procellariiforms: tāiko (black petrel; Procellaria parkinsoni), rako (Buller’s shearwater; Ardenna bulleri), ōi (grey-faced petrel; Pterodroma gouldi) and toanui (flesh-footed shearwater; Ardenna carneipes). The biomass estimates showed an eight-fold increase from winter (243 kg/km) to summer (1885 kg/km). Northland will likely be the first region in Aotearoa/New Zealand to experience the consequences of oceanic warming. The study establishes a baseline against which to measure potential future changes in seabird occurrences. Based on descriptive and modelling approaches, the study demonstrated the role of species’ phenologies in shaping assemblages of seabird species and their impact on total estimated biomass, which may affect ecosystem functioning and energy fluxes.”

With thanks to the Pacific Seabird Group.

Reference:

Daud, N.W., Guerra, M., Brough, T., Dwyer, S.L., Zaeschmar, J.R., Schofield, M.R., Smith, R.O., Bugoni, L., Woehler. E.J. & Rayment, W.J. 2026.  Migratory species strongly affect seabird biomass in seasonal assemblages off northeast Aotearoa/New Zealand.  Journal of Marine Systems 255. doi.org/10.1016/j.jmarsys.2026.104201.

John Cooper, Emeritus Information Officer, Agreement on the Conservation of Albatrosses and Petrels, 16 March 2026