[SYSTEM] You are answering a single information-extraction question. Use ONLY the supplied source material. Do not use prior knowledge. Give a clear, concrete answer with the specific number, name, year, or value asked for. [USER] --- SOURCE ARTIFACT (M3-L4 — corrected card) --- # Table 038 — TaBLe I. List oF STRANDINGS OF PHYSALIA ON THE SHORES OF THE BRITISH BELGIUM i IsLES, NORTHERN AND WESTERN FRANCE AND BELGIUM PDF page: 154 ```csv Year,Season or month,Locality,Number,Wind,Reference 1834,March,"Ardmore, Co. Waterford",One,,Thompson (1835) 1852,-,La Rochelle,"Several, at least",S.-S.W. persistent,De Quatrefages (1854) ogers 1862,Aug.,Isle of Wight,Hundreds Three,After gale,(1854) Rogers (1862) Gosse (1865) 1862 1884,Summer Sept.,"Torbay, S. Devon Dunkerque",One dead,After storm,Théry (1887) Delap (1924) 1907 1907,May,Valentia,One,, 1907 1907,Aug.,"At sea, 50° 16’ N., 1? NY",One,,Stelfox (1936) I9I2,March,Roscoff,One,,"de Beauchamp (in Caullery, 1912)" 1912,April,Boulogne,Dozen,After westerly gales,Caullery (1912) I9QI2,April,Knocke (Belgium),Three,After westerly gales,Lameere (1912) 1912,March-— April,"Seaford, Rye, etc. to Ilfracombe",Thousands,After strong south to south-westerly winds,This paper 1913,Feb.- April,"Bigbury Bay, Plymouth Sound, Looe, and Aberystwyth",Several,After strong south to west winds,This paper 1919 1921,,"Guéethary Bantry, Co. Cork",Numerous Great shoal Several,,Pérez (1929) Delap (1924) 1919 1921 1934,Jan.,Perranporth to,,After strong south to,This paper 1921 1934,Oct.- Nov.,"Polzeath, N. Cornwall",,west and north-west winds, 1934,Autumn,"Hook Tower Lighthouse, Co. Wexford",One,,Stelfox (1936) 1934,,"Tragumina, Co, Cork",One,,Stelfox (1936) 1935,,"Hook Tower Lighthouse, Co. Wexford",One,,Stelfox (1936) 1935,Oct.,"Mullion Cove, S.W. Cornwall",One,After westerly winds,This paper 1935,,"Newquay, N. Cornwall .",One,After strong westerly winds,This paper 1945,Oct.,"Cornwall, Devon, S. and N. Wales, Eire",Large shoals,Fully dis cussed below,This paper 1945,Oct.,Roscoff,Several,,Bocquet (private communication) 1945,Aug.-,Concarneau,Large numbers,,Bouxin & Legendre (1946) his pap 1945 1946,Sept. Dec.,"Mousehole, Cornwall Whitsand Bay, Cornwall and",Three A few,After S.W. Air S.W. gale,(1946) This paper This paper ,July- Sept.,Guéthary to La Rochelle,,, 1946,uly- Sept.,Penzance,Enormous swarm,,Weill (1946) ``` --- END ARTIFACT --- Question: In the Vol 27 list of Physalia (Portuguese man-of-war) strandings on British and European coasts, was there a stranding reported on the coast of Greece? If so, what year and where? Answer concisely. Cite the row/cell/section you used.

General perspective

Based on the provided information, there is no mention of a stranding reported on the coast of Greece in the Vol 27 list of Physalia (Portuguese man-of-war) strandings on British and European coasts. The list includes strandings in various locations, such as the British Isles, Northern and Western France, and Belgium, but does not mention any strandings in Greece.

General Climate Agent

References

Ten Years of Mediterranean Monk Seal Stranding Records in Greece under the Microscope: What Do the Data Suggest?

The analysis involved categorization according to the cause of stranding and seasonality, the identification of hotspot stranding areas and an assessment of possible correlations between stranding events and environmental/climatic patterns using time series analysis. Moreover, Generalized Additive Models (GAMs) were applied to explore the effects of the size of small-scale fishing grounds, the number of species sightings, and the occurrence of reproduction sites on “human-related” strandings. Finally, special focus was put on the central part of the eastern Ionian Sea for the assessment of stranding hotspot areas by means of the Multi-Criteria Decision Analysis (MCDA) approach, based on different kinds of spatial information such as anthropogenic pressures and the location of breeding sites and feeding grounds. Time series analysis results revealed that oscillation indices, during the first half of the year, and sea surface temperature (SST) in the Mediterranean from October to December were positively correlated with monk seal stranding events. GAMs underlined that areas combining extended small-scale fishery grounds and a higher number of sightings were more likely to cause more strandings. Regarding spatial analyses, the central Aegean Sea was highlighted as a hotspot for “human-related strandings”, while the MCDA approach emphasized that the southern coasts of Cephalonia and the gulf between Lefkada and mainland Greece were susceptible to subadult strandings.

Long-Term Seasonal and Interannual Patterns of Marine Mammal Strandings in Subtropical Western South Atlantic

A total of 12,540 marine mammals stranding events (779 live and 11,761 dead strandings), involving animals from 10 families and 40 species (species could not be determined for 1,232 events), were reported in the study area. Franciscana (n = 4,574), South American fur seal (n = 3,419), South American sea lion (n = 2,049), bottlenose dolphin (n = 293) and subantarctic fur seal, Arctocephalus tropicalis, (n = 219) were the most frequently reported species. The other 35 species accounted for 3% of the remaining marine mammal stranding events (Table 2). The majority of strandings involved a single individual. Only seven events were mass strandings

Portuguese Man-of-War (Physalia physalis) in the Mediterranean: A permanent invasion or a casual appearance?

While swimming in the waters off the Italian island of Sardinia in August 2010, a woman suffered an allergic reaction and died after being stung by a Portuguese Man-of-War (Physalia physalis)1. P. physalis, a pleustonic colony of polypoid and medusoid organisms, is equipped with a particularly potent toxin that is potentially deadly to humans2,3 (more details in Supplementary Information).

Climate-driven environmental changes around 8,200 years ago favoured increases in cetacean strandings and Mediterranean hunter-gatherers exploited them

Our research has implications for understanding human adaptations to RCC, as well as for studies of cetacean strandings, conservation and genetics. The diet of the latest hunter-gatherer from Grotta dell’Uzzo represents an exception, given that marine resources were not consumed intensively by pre- vious Mesolithic humans at the same site, as well as by prehistoric groups in the Mediterranean, due to the oligotrophy of this sea39. Humans and foxes opportunistically exploited the dramatic increase in cetacean strandings linked to climate-driven environmental changes caused by the 8.2-kyr-BP event. We cannot, however, reach definitive conclusions as to whether the hunter-gatherers of NW Sicily were actively opportunistic, driving cetaceans in distress to the shore in a primordial form of drive hunting, or passively exploited annual strandings as other animals would have done.

Twenty Years of Sea Turtle Strandings in New Caledonia

In this study, we investigated cause-specific temporal and spatial trends in sea turtle strandings in New Caledonia. Five species of sea turtles were recorded in the 406 strandings documented between January 1999 and March 2021. Green turtles represented the majority of the stranded species (68%), reflecting the importance of the resident green turtle population in New Caledonian waters. Nearly half of the individuals stranded were juveniles (48%). The great majority of strandings were recorded in the South Province, the most populous province of New Caledonia (73%). The main causes of the strandings were classified as unknown (50%), followed by poaching (17%), by-catch (15%), collision (10%), natural (8%), plastic ingestion (0.5%) and other (0.5%). This study contains the first official record of the presence and relative importance of fibropapilloma in New Caledonia, but we could not determine if it was the cause of death for the stranded individuals. Two individuals, after necropsies, were found to have ingested plastic (one in 2011 and the other in 2020). This is the first record of plastic ingestion for sea turtles in New Caledonia. Three significant trends were also found during the study: an increase in the number of individuals reported in the study since 2004; a seasonal effect, with most strandings occurring in summer (November to January); and stranding hotspots. Rehabilitation allowed for 35% of individuals found alive to be released back into the wild. This study suggests that mitigation strategies such as “go slow” zones and a robust stranding network should be put in place in New Caledonia.