Explanation: The Japanese Paleolithic period is defined by the absence of pottery, preceding the Jōmon period which is characterized by pottery development. While the end date is approximately 14,000 BC, the presence of pottery is the defining characteristic of the subsequent Jōmon period, not the Paleolithic.

Explanation: The Japanese Paleolithic period concluded around 14,000 BC. This transition marks the beginning of the Jōmon period, which is characterized by the development of pottery, not the Neolithic period.

Explanation: The term 'kyūsekki jidai' is the Japanese name for the Paleolithic period, literally translating to 'old stone age period', and denotes the era before the development of pottery.

Explanation: The Japanese Paleolithic period is defined as the era of human inhabitation in Japan that predates the development of pottery, distinguishing it from the subsequent Jōmon period.

Explanation: The Japanese Paleolithic period is generally considered to have begun around 40,000 BC, with evidence suggesting habitation from approximately 36,000 BC, and concluded around 14,000 BC.

Explanation: The conclusion of the Japanese Paleolithic period around 14,000 BC marks the commencement of the Jōmon period, which is distinctly characterized by the emergence and widespread use of pottery.

Explanation: The term 'kyūsekki jidai' is the Japanese designation for the Paleolithic period, signifying the 'old stone age' era before the advent of pottery.

Explanation: The volcanic nature of Japan results in widespread ash deposits from eruptions. These layers can be precisely dated and serve as vital chronological markers for archaeological strata, aiding significantly in dating Paleolithic sites.

Explanation: The AT (Aira-Tanzawa) pumice layer is a significant geological marker, covering much of Japan around 21,000 to 22,000 years ago, making it a valuable reference for dating archaeological findings from that period.

Explanation: Volcanic ash deposits, resulting from the archipelago's geological activity, are crucial for dating Paleolithic archaeological layers due to their widespread distribution and datability.

Explanation: The AT (Aira-Tanzawa) pumice layer serves as a significant dating reference point across Japan, originating from approximately 21,000 to 22,000 years ago.

Explanation: Recent archaeological findings, such as those from the Lake Nojiri site, indicate human habitation in Japan dating back to approximately 36,000 BC, placing it within the Paleolithic period.

Explanation: During the Pleistocene epoch, particularly during glacial periods like the Last Glacial Maximum, lower sea levels exposed land bridges connecting Japan to the Asian continent, facilitating migration, rather than higher sea levels.

Explanation: During the Last Glacial Maximum, lower sea levels exposed land bridges connecting Japan to the Asian mainland, facilitating migration, rather than higher sea levels creating connections.

Explanation: During the Pleistocene epoch, lower sea levels exposed land bridges that connected Japan to the Asian mainland, thereby facilitating the migration of early humans and animals into the archipelago.

Explanation: The depiction of Japan during the Last Glacial Maximum illustrates that lower sea levels during that period exposed land bridges, connecting the archipelago to the Asian mainland and facilitating migration.

Explanation: Tadahiro Aizawa is recognized for discovering the first Paleolithic site in Japan, a finding that significantly challenged the prevailing belief that human habitation in the archipelago only began during the Jōmon period.

Explanation: Since the initial discoveries, archaeologists have identified approximately 5,000 Paleolithic sites across Japan, indicating a more extensive presence than 500 sites would suggest.

Explanation: The Lake Nojiri site, dated to approximately 36,000 BC, offers significant evidence of Paleolithic inhabitants hunting and butchering large extinct megafauna indigenous to Japan.

Explanation: The Lake Nojiri site provides evidence of Paleolithic inhabitants hunting extinct megafauna such as *Palaeoloxodon naumanni* (an elephant) and *Sinomegaceros yabei* (a giant deer), not mammoths or saber-toothed cats.

Explanation: Tadahiro Aizawa is credited with the discovery of the first Paleolithic site in Japan, a finding that was pivotal in challenging previous assumptions about the timeline of human settlement.

Explanation: Since the initial discoveries, archaeologists have identified approximately 5,000 Paleolithic sites across Japan.

Explanation: The Lake Nojiri site provides crucial evidence indicating that Paleolithic humans engaged in the hunting and butchering of large extinct megafauna native to Japan.

Explanation: The Lake Nojiri site yielded evidence of Paleolithic inhabitants hunting extinct megafauna, specifically the elephant *Palaeoloxodon naumanni* and the giant deer *Sinomegaceros yabei*.

Explanation: The Japanese Paleolithic period is distinguished by the presence of sophisticated stone tool technology, including some of the world's earliest known ground and polished stone tools, which challenges the traditional definition based solely on chipped implements.

Explanation: The earliest ground and polished stone tools discovered in Japan are dated to approximately 30,000 BC, predating the widespread appearance of such tools in other regions globally.

Explanation: The early development of ground stone tools in Japan does not align perfectly with the traditional definition of the Paleolithic period, which primarily characterizes the era by chipped stone tools. Ground tools are typically associated with the subsequent Neolithic period.

Explanation: The presence of ground and polished stone tools, as exemplified by Paleolithic stone axes found in Japan, is significant because these types of tools are considered globally rare for that specific early period.

Explanation: The Japanese Paleolithic period does not align perfectly with the traditional definition based solely on chipped stone tools, due to the early presence of ground and polished stone tools, which are typically associated with the Neolithic period.

Explanation: The stone tool technology of the Japanese Paleolithic period is notable for containing some of the world's earliest examples of ground and polished stone tools, a characteristic typically associated with later periods.

Explanation: The earliest ground and polished stone tools discovered in Japan have been dated to approximately 30,000 BC.

Explanation: The early appearance of ground stone tools in Japan challenges traditional definitions because these tools are typically characteristic of the Neolithic period, suggesting an earlier development of such technologies in the region.

Explanation: Skeletal and dental characteristics suggest that Paleolithic and Jōmon populations shared similarities with aboriginal peoples of the Asian continent, specifically aligning more closely with the Sundadont group rather than the Sinodont group.

Explanation: Research by Schmidt and Seguchi posits that the prehistoric Jōmon people descended from Paleolithic populations that originated in Siberia, particularly in the vicinity of the Altai Mountains.

Explanation: Genetic analyses estimate that modern Japanese people carry approximately 10% ancestry derived from the Jōmon people, not 50%.

Explanation: Genetic studies suggest that Jōmon populations exhibited genetic diversity, with samples from different regions showing distinct markers and affinities, indicating they were not genetically uniform.

Explanation: A prominent theory suggests that certain Jōmon groups trace their ancestry to an 'Altaic-like' population that migrated from Northeast Asia approximately 6,000 BC, contributing to the Incipient Jōmon culture.

Explanation: Y-chromosome haplogroups C1a1 and C2 are associated with hypothesized migrations from Northeast Asia around 6,000 BC, believed to have influenced the development of the Incipient Jōmon culture in Japan.

Explanation: Skeletal and dental characteristics suggest that Paleolithic and Jōmon populations shared similarities with aboriginal peoples of the Asian continent, specifically aligning more closely with the Sundadont group rather than the Sinodont group.

Explanation: Schmidt and Seguchi propose that the prehistoric Jōmon people descended from Paleolithic populations originating in Siberia, specifically in the region of the Altai Mountains.

Explanation: Genetic analyses suggest that modern Japanese people carry approximately 10% of their ancestry derived from the Jōmon people.

Explanation: Genetic studies indicate diversity within Jōmon populations, evidenced by distinct genetic markers and affinities found in samples from different regions, such as the Ōdai Yamamoto I site compared to others.

Explanation: Haplogroups C1a1 and C2 are linked to the hypothesized 'Tungusic-like' migrants from Northeast Asia who are believed to have contributed to the Incipient Jōmon culture around 6,000 BC.

Explanation: In Japanese prehistory, 'Paleo-Asian' refers to an ancient ancestral population group believed to have inhabited Asia prior to the expansion of populations that define modern East Asian peoples.

Explanation: Mitsuru Sakitani's research indicates that the Jōmon people represented an admixture, carrying Y-chromosome haplogroups D1a (an older lineage) and C1a (a more recent lineage).

Explanation: Systematic archaeological study of the Japanese Paleolithic period began relatively recently, commencing after World War II, specifically around 1946.

Explanation: Historically, archaeologists frequently ceased excavations at the Jōmon layer due to the assumption that Japan was uninhabited prior to this period, thus leaving deeper Paleolithic layers unexplored.

Explanation: The highly acidic soil conditions in Japan typically lead to the rapid decomposition of organic materials, making stone tools and other inorganic artifacts the most commonly preserved items from the Paleolithic era.

Explanation: The scandal known as the Japanese Paleolithic hoax, involving the fabrication of archaeological discoveries, was exposed in 2000, leading to significant repercussions in the field.

Explanation: Shinichi Fujimura was an amateur archaeologist, not a professional one, who was exposed for fabricating discoveries at sites like Kamitakamori.

Explanation: Following the reassessment after the Japanese Paleolithic hoax, the earliest widely accepted date for reliable human presence in Japan is now considered to be around 35,000 BC, not 10,000 BC.

Explanation: The high acidity of Japanese soil leads to the rapid decomposition of organic materials, meaning that organic artifacts are poorly preserved, while inorganic materials like stone tools survive more readily.

Explanation: Systematic archaeological study of the Japanese Paleolithic period commenced relatively recently, beginning shortly after the conclusion of World War II in 1946.

Explanation: Historically, archaeologists often ceased excavations at the Jōmon stratum due to the prevailing belief that Japan was uninhabited prior to that period, thus leaving deeper Paleolithic layers unexplored.

Explanation: The highly acidic nature of Japanese soil leads to the decomposition of organic materials, making stone tools, which are more durable, the most commonly preserved artifacts from the Paleolithic era.

Explanation: The Japanese Paleolithic hoax, involving fabricated artifacts, came to light in 2000 and profoundly impacted the field, necessitating a re-evaluation of previous findings.

Explanation: Shinichi Fujimura was an amateur archaeologist exposed for fabricating discoveries at various sites, most notably the Kamitakamori site, which became central to the Japanese Paleolithic hoax.

Explanation: After the Japanese Paleolithic hoax was revealed, the earliest widely accepted date for reliable human presence on the Japanese archipelago was revised to approximately 35,000 BC.

Explanation: The high acidity of Japanese soil presents a significant challenge by causing the rapid decomposition of organic materials, thereby limiting the preservation of such artifacts from the Paleolithic period.

Explanation: The Japanese Paleolithic hoax necessitated a reassessment of dating evidence, leading to the establishment of approximately 35,000 BC as the earliest widely accepted date for human presence in Japan.