Fungal literature records database of the sub-Antarctic Region of Aysén, Chile

To this day, merely 8% of all estimated fungi species are documented and, in certain regions, its biodiversity is practically unknown. Inside the Fungi Kingdom, macrofungi and lichens assume a critical part in the ecosystem functionality and have a historical connection to mankind's social, clinical and nutritious uses. Despite their importance, the diversity of these groups has been widely overlooked in the sub-Antarctic Region of Chile, a crucial area in the study of climate change due to its extraordinary biodiversity and its proximity to Antarctica. Few studies regarding both groups have been conducted in this sub-Antarctic Region and the data are still scarce and inaccessible, as these are only published in specialised journals, unreachable to local communities. This publication presents a records compilation available in previous published scientific and technical reports on macrofungi and lichen diversity. In total, 1263 occurrence records of 618 species (341 records of 251 macrofungi species and 922 records of 367 lichen species) were digitised and integrated into the regional platform Biodiversity Information System for Aysén (SIB-Aysén) and into GBIF. Here, we provide the fullest dataset on one of the most diverse group of living beings in one of the the least-known world regions.

Comparison of modern and fossil diatom assemblages and their implication on sea-ice conditions in coastal Antarctic region

Antarctic Coastal regions are thought to be characterized by high productivity usually dominated by diatoms. Considering their prime importance in global carbon biological pump, diatom distribution and abundance studies are sparse especially in coastal regions of Antarctica. Biogenic silica is considered to be severely affected by dissolution in the undersaturated ocean water, therefore, combined study of diatom assemblages from water column and those found in the sediments is important. Therefore, we conducted a combined study of sediment diatoms along with surface water diatoms collected from Coastal Antarctica. When the modern assemblages are compared to the fossil record, it is clear the most of the important diatoms from the summer assemblages are not preserved in the underlying sediments. The studies reveal that only F. kerguelensis is common abundant species in both water and sediment which suggests that coastal Antarctic region could be having more open ocean influence. In contrast, the presence of sea ice related diatom species from surface sediment indicate for expansion of sea ice or ice edge adjacent to the water column, however such species were not found in the overlying water samples which could be due to less sea-ice extent.

The Reproductive Biology of Deep-Sea Elasmobranchs and Batoids from Chatham Rise and the Sub-Antarctic Region of New Zealand

<p>The reproductive biology of thirteen poorly studied deep-sea elasmobranch species, on Chatham Rise and the Sub-Antarctic region of New Zealand, was assessed. The study species are all commonly caught as bycatch in commercial fisheries and include: three viviparous species (Centroselachus crepidater, Centrophorus squamosus, Deania calcea), five deep-sea catsharks (Apristurus spp.), and five deep-sea batoid species. However, due to a lack of knowledge on their general biology, ecology, and taxonomy – the impact of fishing on these species is unknown. A species’ resilience to fishing pressure depends on its biological productivity and susceptibility to capture. Accurate assessment of maturity is critical to understanding productivity and the effects of fishing pressure on fished stocks. Maturity is commonly assessed macroscopically, using a visual assessment that lacks precision and relies on subjective judgement. The wide array of macroscopic maturity assessment keys, used internationally, employ various sets of characteristics to define the same reproductive processes, which can lead to errors and inconsistencies in maturity assessment and parameter estimates (e.g. length-at-maturity), making direct comparisons between studies difficult. Objective reproductive measurements (oviducal gland size, follicle size, uterus width, follicle number and gonad weight) were used to assess the validity and quality of the macroscopic maturity staging key used in New Zealand, towards determining the onset of maturity and accurately distinguishing between macroscopic stages. The results showed that no single measurement gave a clear-cut indicator of maturity and some fish classified as ‘maturing’ were very likely ‘mature’. Uterus width, follicle size and gonadosomatic index values were found to be the most useful attributes in determining the onset of maturity. Uterus width and follicle size were also useful in determining differences between different macroscopic stages, whilst gonadosomatic index values were useful in distinguishing between reproductive strategies. Histological observations, with a particular focus on sperm storage, were also used to inform the quality of macroscopic maturity assignment. Sperm storage was observed for the first time in Centroselachus crepidater, Centrophorus squamosus and Brochiraja asperula. This study successfully highlighted problems in the macroscopic maturity assessment key currently used in New Zealand and proposes an improved, more objective macroscopic staging key. The improved key aims: 1) to assist in distinguishing between maturity stages, particularly between stage 2 (maturing), stage 2 (resting) and stage 6 (post-partum) females, by examining the same key reproductive structures across all macroscopic stages, and 2) to provide more representative maturity data for use in fisheries and demographic models, for more robust assessment of the impacts of fishing pressure on poorly studied deep-sea chondrichthyans.</p>

The Reproductive Biology of Deep-Sea Elasmobranchs and Batoids from Chatham Rise and the Sub-Antarctic Region of New Zealand

<p>The reproductive biology of thirteen poorly studied deep-sea elasmobranch species, on Chatham Rise and the Sub-Antarctic region of New Zealand, was assessed. The study species are all commonly caught as bycatch in commercial fisheries and include: three viviparous species (Centroselachus crepidater, Centrophorus squamosus, Deania calcea), five deep-sea catsharks (Apristurus spp.), and five deep-sea batoid species. However, due to a lack of knowledge on their general biology, ecology, and taxonomy – the impact of fishing on these species is unknown. A species’ resilience to fishing pressure depends on its biological productivity and susceptibility to capture. Accurate assessment of maturity is critical to understanding productivity and the effects of fishing pressure on fished stocks. Maturity is commonly assessed macroscopically, using a visual assessment that lacks precision and relies on subjective judgement. The wide array of macroscopic maturity assessment keys, used internationally, employ various sets of characteristics to define the same reproductive processes, which can lead to errors and inconsistencies in maturity assessment and parameter estimates (e.g. length-at-maturity), making direct comparisons between studies difficult. Objective reproductive measurements (oviducal gland size, follicle size, uterus width, follicle number and gonad weight) were used to assess the validity and quality of the macroscopic maturity staging key used in New Zealand, towards determining the onset of maturity and accurately distinguishing between macroscopic stages. The results showed that no single measurement gave a clear-cut indicator of maturity and some fish classified as ‘maturing’ were very likely ‘mature’. Uterus width, follicle size and gonadosomatic index values were found to be the most useful attributes in determining the onset of maturity. Uterus width and follicle size were also useful in determining differences between different macroscopic stages, whilst gonadosomatic index values were useful in distinguishing between reproductive strategies. Histological observations, with a particular focus on sperm storage, were also used to inform the quality of macroscopic maturity assignment. Sperm storage was observed for the first time in Centroselachus crepidater, Centrophorus squamosus and Brochiraja asperula. This study successfully highlighted problems in the macroscopic maturity assessment key currently used in New Zealand and proposes an improved, more objective macroscopic staging key. The improved key aims: 1) to assist in distinguishing between maturity stages, particularly between stage 2 (maturing), stage 2 (resting) and stage 6 (post-partum) females, by examining the same key reproductive structures across all macroscopic stages, and 2) to provide more representative maturity data for use in fisheries and demographic models, for more robust assessment of the impacts of fishing pressure on poorly studied deep-sea chondrichthyans.</p>

Fungal literature records database of the sub-Antarctic region of Aysén, Chile

To this day, merely 15% of all estimated fungi species are documented, and in certain regions, its biodiversity is practically unknown. Inside the Fungi Kingdom, macrofungi and lichens assume a critical part in the ecosystem functionality and have a historical connection to mankind's social, clinical and nutritious uses. Despite their importance, the diversity of these groups has been widely overlooked in the sub-Antarctic region of Chile, a crucial area in the study of climate change due to its extraordinary biodiversity and its proximity to Antarctica. Few studies regarding both groups have been conducted in this sub-Antarctic region but data are still scarce and inaccessible, as there are only published in specialized journals, unreachable to local communities. This publication presents the records available in published scientific and technical reports on macrofungi and lichen diversity. In total, 987 occurrence records of 435 species (106 records of 95 macrofungi species 881 records of 340 lichen species) were digitized and integrated into the regional platform Biodiversity Information System for Aysén (SIB-Aysén) and into GBIF.

Diversity and species composition of diatom communities of Ardley Island, South Shetland Islands

The Antarctic diatom flora has been at the centre of interest of many studies in past decades. The present paper brings new information on the species richness, biogeography and community composition of diatoms on the Ardley Island, South Shetland Islands. One fresh-water and ten soil samples had been collected from the Antarctic Special protected area (ASPA) in the spring of 2019. The following analysis revealed eighty-six diatom taxa in well-developed communities, dominated by Luticola muticopsis, L. truncata, Pinnularia australoschoenfelderi, P. austroshetlandica and P. borealis. According to the current biogeographical knowledge, the majority of species have restricted distribution among the Antarctic Realm; 46.5% of them are reported from various islands of the Maritime Antarctic Region. Based on the dominance of species as Luticola muticopsis and L. truncata and their ecological preferences, we concluded that the species composition of the diatom communities is driven by high nutrient input from breeding seabirds and the moisture availability during the austral summer.