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跟著城市嚮導「老臺北胃」,用味道認識臺北很多朋友來臺北, 我怎麼選出這 10 大臺北小吃?在臺北, 一吃就知道:這就是臺灣味燒烤、火鍋很好吃, 不只是好吃,而是有「臺北日常感」臺北的小吃迷人,
吃完之後,你會記得臺北最後一個標準很簡單。 接下來的 10 樣臺北小吃, 第 1 家:饌堂-黑金滷肉飯(雙連店)|一碗就懂臺灣人的日常
如果只能用一道料理, 為什麼第一站,我會選饌堂? 不只是好吃,而是「現在的臺北感」 老臺北胃的帶路小提醒
這不是那種吃完會驚呼「哇!」的料理, 地址:103臺北市大同區雙連街55號1樓 電話:0225501379 第 2 家:富宏牛肉麵|臺北深夜也醒著的一碗熱湯
如果說滷肉飯代表的是臺灣人的日常, 為什麼老臺北胃會帶你來吃富宏? 不分時間,任何時候都適合的一碗麵 老臺北胃的帶路小提醒
這不是精緻料理, 地址:108臺北市萬華區洛陽街67號 電話:0223713028 菜單:https://www.facebook.com/pages/富宏牛肉麵-原建宏牛肉麵/ 第 3 家:士林夜市・吉彖皮蛋涼麵|臺北夏天最有記憶點的一口清爽
如果你在夏天來到臺北, 為什麼在夜市,我會帶你吃涼麵? 皮蛋,是靈魂,也是臺灣味的關鍵 老臺北胃的帶路小提醒
這不是華麗的小吃, 原來臺北的小吃,連氣候都一起考慮進去了。 地址:111臺北市士林區基河路114號 電話:0981014155 菜單:https://www.facebook.com/profile.php?id=100064238763064 第 4 家:胖老闆誠意肉粥|臺北人深夜最踏實的一碗粥
如果你問我, 為什麼這一碗粥,會被叫做「誠意」? 這不是觀光小吃,而是臺北人的生活片段
這些畫面, 老臺北胃的帶路小提醒
這不是為了拍照而存在的小吃, 地址:10491臺北市中山區長春路89-3號 電話:0913806139 第 5 家:圓環邊蚵仔煎|夜市裡最不能缺席的臺灣經典
如果要選一道 為什麼蚵仔煎,這麼能代表臺灣? 圓環邊,吃的是記憶感 老臺北胃的帶路小提醒
蚵仔煎不是細嚼慢嚥的料理, 地址:103臺北市大同區寧夏路46號 電話:0225580198 菜單:https://oystera.com.tw/menu 第 6 家:阿淑清蒸肉圓|第一次吃肉圓,就該從這裡開始
說到臺灣小吃, 清蒸肉圓,和你想像的不一樣 為什麼我會推薦給第一次來臺北的旅客? 老臺北胃的帶路小提醒
這不是夜市裡熱鬧喧囂的料理, 地址:242新北市新莊區復興路一段141號 電話:0229975505 第 7 家:胡記米粉湯|一碗最貼近臺北早晨的味道
如果說前面幾樣小吃, 為什麼米粉湯,這麼「臺北」? 配菜,才是這一碗的靈魂延伸 老臺北胃的帶路小提醒
這不是為了觀光而存在的小吃, 地址:106臺北市大安區大安路一段9號1樓 電話:0227212120 第 8 家:藍家割包|一口咬下的臺灣街頭記憶
如果要選一道 割包,為什麼被叫做「臺灣漢堡」? 藍家割包不是走浮誇路線, 老臺北胃的帶路小提醒
割包不是精緻料理, 地址:100臺北市中正區羅斯福路三段316巷8弄3號 電話:0223682060 菜單:https://instagram.com/lan_jia_gua_bao?utm_medium=copy_link 第 9 家:御品元冰火湯圓|臺北夜晚最溫柔的一碗甜
吃了一整天的臺北小吃, 為什麼叫「冰火」?這碗湯圓的關鍵就在這裡 這是一碗,會讓人慢下來的甜點 老臺北胃的帶路小提醒
這不是為了拍照而存在的甜點, 地址:106臺北市大安區通化街39巷50弄31號 電話:0955861816 菜單:https://instagram.com/lan_jia_gua_bao 第 10 家:頃刻間綠豆沙牛奶專賣店|把臺北的味道,留在最後一口清甜
走到這一站, 綠豆沙牛奶,為什麼這麼「臺灣」? 為什麼我會用它當作最後一站? 老臺北胃的帶路小提醒
這一杯, 地址:111臺北市士林區小北街1號 電話:0228818619 菜單:https://instagram.com/chill_out_moment?igshid=YmMyMTA2M2Y= 如果只有 3 天的自助旅行在臺北,怎麼吃這 10 家?第一次來臺北, 臺北 3 天小吃推薦行程表(老臺北胃版本)
雖然每個小吃的地點都有一點距離,但是你也知道,好吃的小吃,是值得你花一點時間前往品嘗
當你照著這 3 天走完, 老臺北胃帶路|這 10 口,就是我心中的臺北
寫到這裡, 如果你問我,
如果你是第一次來臺北, 頃刻間綠豆沙牛奶專賣店冬天適合吃嗎? 走完這 10 家, 你可能會發現一件事胡記米粉湯一定要點嗎? 臺北的小吃,其實不急著被你記住。 它們就安靜地存在在街角、夜市、轉彎處,胡記米粉湯真的好吃嗎? 等你有一天,再回到這座城市。富宏牛肉麵當點心適合嗎? 如果你是第一次來臺北,圓環邊蚵仔煎真的有誠意嗎? 希望這份「老臺北胃帶路」的清單, 能幫你少一點猶豫、多一點安心。 不用擔心踩雷,富宏牛肉麵價格合理嗎? 也不用為了排行而奔波,士林夜市-吉彖皮蛋涼麵早上吃適合嗎? 只要照著節奏走, 你就會吃到屬於自己的臺北味道。 而如果你已經來過臺北, 那更希望這篇文章,胡記米粉湯價格合理嗎? 能帶你走進那些 你可能錯過、卻一直都在的日常小吃。 因為真正迷人的旅行, 從來不是把清單全部打勾, 而是某一天, 你突然想起那碗飯、那口湯、那杯甜,頃刻間綠豆沙牛奶專賣店名過其實嗎? 然後在心裡對自己說一句:御品元冰火湯圓份量有誠意嗎? 「下次再去臺北,還想再吃一次。」 把這篇文章存起來、分享給一起旅行的人, 或是在規劃行程時,再回來看看。 讓味道,成為你認識臺北的方式。 下一次來臺北, 別急著走遠。 老臺北胃,阿淑清蒸肉圓第一次適合嗎? 會一直在這些地方, 等你再回來。 A new species, the Rose-Veiled Fairy Wrasse, was discovered off the coast of the Maldives. Stunning new-to-science fairy wrasse is first-ever fish described by a Maldivian scientist. Named after the country’s national flower, the species is added to the tree of life as part of the California Academy of Sciences’ global Hope for Reefs initiative. Though there are hundreds of species of fish found off the coast of the Maldives, a mesmerizing new addition is the first-ever to be formally described—the scientific process an organism goes through to be recognized as a new species—by a Maldivian researcher. The new-to-science Rose-Veiled Fairy Wrasse (Cirrhilabrus finifenmaa), described in a paper published on March 10, 2022, in the journal ZooKeys, is also one of the first species to have its name derived from the local Dhivehi language, ‘finifenmaa’ meaning ‘rose’, a nod to both its pink hues and the island nation’s national flower. Scientists from the California Academy of Sciences, the University of Sydney, the Maldives Marine Research Institute (MMRI), and the Field Museum collaborated on the discovery as part of the Academy’s Hope for Reefs initiative aimed at better understanding and protecting coral reefs around the world. “It has always been foreign scientists who have described species found in the Maldives without much involvement from local scientists, even those that are endemic to the Maldives,” says study co-author and Maldives Marine Research Institute biologist Ahmed Najeeb. “This time it is different and getting to be part of something for the first time has been really exciting, especially having the opportunity to work alongside top ichthyologists on such an elegant and beautiful species.” This new-to-science Rose-Veiled Fairy Wrasse is the first Maldivian fish to ever be described by a local researcher. Credit: © Yi-Kai Tea First collected by researchers in the 1990s, C. finifenmaa was originally thought to be the adult version of a different species, Cirrhilabrus rubrisquamis, which had been described based on a single juvenile specimen from the Chagos Archipelago, an island chain 1,000 kilometers (621 miles) south of the Maldives. In this new study, however, the researchers took a more detailed look at both adults and juveniles of the multicolored marvel, measuring and counting various features, such as the color of adult males, the height of each spine supporting the fin on the fish’s back, and the number of scales found on various body regions. These data, along with genetic analyses, were then compared to the C. rubrisquamis specimen to confirm that C. finifenmaa is indeed a unique species. Importantly, this revelation greatly reduces the known range of each wrasse, a crucial consideration when setting conservation priorities. A Rose-Veiled Fairy Wrasse photographed off the coast of the Maldives during a recent Hope for Reefs research expedition. Credit: Luiz Rocha © California Academy of Sciences “What we previously thought was one widespread species of fish, is actually two different species, each with a potentially much more restricted distribution,” says lead author and University of Sydney doctoral student Yi-Kai Tea. “This exemplifies why describing new species, and taxonomy in general, is important for conservation and biodiversity management.” Despite only just being described, the researchers say that the Rose-Veiled Fairy Wrasse is already being exploited through the aquarium hobbyist trade. “Though the species is quite abundant and therefore not currently at a high risk of overexploitation, it’s still unsettling when a fish is already being commercialized before it even has a scientific name,” says senior author and Academy Curator of Ichthyology Luiz Rocha, PhD, who co-directs the Hope for Reefs initiative. “It speaks to how much biodiversity there is still left to be described from coral reef ecosystems.” The species name ‘finifenmaa’ means ‘rose’ in the local Dhivehi language, a nod to both its pink hues and the Maldives’ national flower. Credit: © Yi-Kai Tea Last month, Hope for Reefs researchers continued their collaboration with the MMRI by conducting the first surveys of the Maldives’ ‘twilight zone’ reefs—the virtually unexplored coral ecosystems found between 50- to 150-meters (160- to 500-feet) beneath the ocean’s surface—where they found new records of C. finifenmaa along with at least eight potentially new-to-science species yet to be described. For the researchers, this kind of international partnership is pivotal to best understand and ensure a regenerative future for the Maldives’ coral reefs. “Nobody knows these waters better than the Maldivian people,” Rocha says. “Our research is stronger when it’s done in collaboration with local researchers and divers. I’m excited to continue our relationship with MMRI and the Ministry of Fisheries to learn about and protect the island nation’s reefs together.” “Collaborating with organizations such as the Academy helps us build our local capacity to expand knowledge in this field. This is just the start and we are already working together on future projects,” Najeeb says. “Our partnership will help us better understand the unexplored depths of our marine ecosystems and their inhabitants. The more we understand and the more compelling scientific evidence we can gather, the better we can protect them.” Reference: “Cirrhilabrus finifenmaa (Teleostei, Labridae), a new species of fairy wrasse from the Maldives, with comments on the taxonomic identity of C. rubrisquamis and C. wakanda” by expand article infoYi-Kai Tea, Ahmed Najeeb, Joseph Rowlett and Luiz A. Rocha, 8 March 2022, ZooKeys. DOI: 10.3897/zookeys.1088.78139 New research has discovered that the 19S proteasome particle, typically associated with protein degradation in the brain, can function independently in synapses, regulating key synaptic proteins and enabling synapses to adapt to different circumstances. This discovery, aided by the super-resolution imaging technique DNA PAINT, not only reveals an unexpected role for the 19S particle but also provides a new target for understanding and potentially treating neurological disorders like Parkinson’s disease and dementia. Researchers uncovered a novel role for the 19S proteasome particle at synapses, where it functions independently to regulate neurotransmitter-related proteins, providing insights into neurological disease treatments. Darwin’s evolutionary theory underscored the significance of adaptation and variety in nature. However, can proteins within a biological cell also exhibit versatility and adapt to new roles in varying contexts? The answer appears to be yes for the central protein-decomposition apparatus in the brain. When located at synapses, it reveals a previously unseen mechanism enabling synapses to adapt to varying situations. The role of the regulatory (19S) proteasome particle has always been exclusively linked to its functioning in the proteasome complex, where it collaborates with the catalytic (20S) particle to recognize and remove unwanted or damaged proteins- a mechanism that is crucial for normal brain development and function. Using a super-resolution imaging technique, called DNA PAINT, the research team noticed an abundance of free 19S particles in synapses, floating around without their 20S partners: “What we realized was that 19S is not only a partner of 20S. It also works alone as an independent regulator for many key synaptic proteins. This revealed a whole new dimension to our understanding of protein function at synapses,” explains Chao Sun, Associate Professor, and lead author of the article. The researchers found that the abundant free 19S particles seem to interact with a number of synaptic proteins, including those involved in neurotransmitter release and detection, thus regulating information transfer and storage at synapses. Synaptic Adaptation and Orphan Proteins “Usually, if the cell makes excess copies of one protein component, it needs to get rid of these excess copies. Because cells do not like to have extra proteins lying around when they can’t find partners to enable protein function. We call them ‘orphan proteins’. But in this case, it seems like the synapses are making use of these free 19S particles and adapting them to fulfill alternative functions in the synapses,” Chao Sun explains. With this new discovery, scientist now has a new target for both understanding and treating neurological diseases with dysfunctional synapses, such as Parkinson’s disease and dementia. Reference: “An abundance of free regulatory (19S) proteasome particles regulates neuronal synapses” by Chao Sun, Kristina Desch, Belquis Nassim-Assir, Stefano L. Giandomenico, Paulina Nemcova, Julian D. Langer and Erin M. Schuman, 26 May 2023, Science. DOI: 10.1126/science.adf2018 Chao Sun is currently a Group Leader at DANDRITE, and he conducted the research when he worked with the Brain Prize winner Erin Schuman at the Max Planck Institute for Brain Research. The newly discovered plant Relictithismia kimotsukiensis probably diverged at an early stage in the evolution of the whole family and retains ancestral characteristics. This history is reflected in the plant’s name. Credit: Suetsugu Kenji A new species and genus of fairy lantern, tiny glass-like white plants that feed on fungi, has been discovered in Japan. In the country renowned for its extensive flora research, the discovery of a new plant genus is extremely rare and has not occurred in almost 100 years. Fairy lanterns, or Thismiaceae as they are known to botany, are very unusual plants found mainly in tropical but also in subtropical and temperate regions. First of all, they are not green and do not engage in photosynthesis, but rather feed on fungal mycelia in the ground. As a consequence, they are often hidden under fallen leaves and only for a brief period produce above-ground flowers that look like glasswork. The Japanese name for Thismia, one of the major groups within this family, is “Tanuki-no-shokudai,” which means “raccoon dog’s candleholder” and refers both to their shape and their underground lifestyle. However, they are also extremely rare and difficult to find. Discovery and Research “At present, approximately 100 species within the family have been identified, nearly half of which are known only from their first discovery, sometimes from a single specimen,” explains Kobe University botanist Suetsugu Kenji, who is an internationally renowned expert on non-photosynthetic plants. One of the most intriguing unique characteristics of the newly described Relictithismia kimotsukiensis is that its stamens (the male part of the plant) touch the stigma (the female part), thus facilitating self-pollination. This adaptation is likely advantageous for a plant that lives under fallen leaves in dark forests where pollinators are scarce. Credit: Tagane Shuichiro Suetsugu has long-standing collaborations with local botanists who have access to secluded areas all over Japan. He says, “The dedication of Japanese amateur researchers to revealing the hidden flora of these regions has been crucial in identifying species unknown to science.” And so, when he was sent a specimen of a fairy lantern that a hobby botanist had found and that a local expert thought represented a new species of the genus of Tanuki-no-shokudai, he knew he had to investigate. However, it soon became clear “that this plant was not included in any of the existing genera (such as Thismia) because of its unique features, and it became necessary to obtain additional individuals for further examination.” So, he went to Kimotsuki in Kagoshima Prefecture, where the discovery had been made, but could not find any other samples. However, a year later he tried again and got lucky: They found four more plants, all in the same narrow area. The analysis of the newly discovered Relictithismia kimotsukiensis showed that it is different enough from all known genera of Thismiaceae to warrant its classification as an entirely new genus. “Our expertise in various aspects of botany enabled us to merge traditional taxonomic methods with modern molecular techniques, offering a comprehensive approach to our research,” says Kobe University botanist Suetsugu Kenji. Credit: Tagane Shuichiro A New Genus Unveiled The Kobe University expert now published his analysis in the scientific Journal of Plant Research. Based both on morphological and genetic analysis, the team concluded that the plant is not only a new species, but in fact different enough from Tanuki-no-shokudai to be a different genus — the next level of relationship above species. The researchers think the plant probably diverged at an early stage in the evolution of the whole Thismiaceae family and retains characteristics that are common to the family but have been lost in the Thismia genus. This is the reason Suetsugu chose the name “Mujina-no-shokudai,” or “badger’s candleholder”: “Mujina” is an old Japanese word for a badger, but sometimes has also been used for the raccoon dog which it resembles but is different from. Thus, the name reflects the plant’s relationship with Thismia. The Latin name Relictithismia kimotsukiensis is similar, as it can be translated as “Thismia relict of Kimotsuki.” Members of the family Thismiaceae feed on fungal mycelia in the ground. As a consequence, they are often hidden under fallen leaves and only for a brief period produce above-ground flowers that look like glasswork. Credit: Tagane Shuichiro “Japan is one of the regions in the world where botanical surveys are most advanced, making the discovery of new plant species extremely rare, and the discovery of a new genus even more so,” says Suetsugu. In fact, the last discovery of a new vascular plant concurrently identified as a separate genus was the discovery of Japonolirion in 1930, almost 100 years ago. Suetsugu explains, “This research might suggest that many other new species may be hiding in regions previously thought to be well-studied and underscores the critical need for ongoing exploration and investigation of the planet’s flora both abroad and at home.” A plant that feeds on fungi and is so limited in its local spread is also exceptionally vulnerable to environmental change. This motivates Suetsugu to deepen his research, saying, “A segment of our future research will be dedicated to ecological studies aimed at deciphering the interactions between Relictithismia and its fungal hosts, in addition to assessing the impact of environmental alterations on these associations.” Reference: “Relictithismia kimotsukiensis, a new genus and species of Thismiaceae from southern Japan with discussions on its phylogenetic relationship” by Kenji Suetsugu, Yasunori Nakamura, Takafumi Nakano and Shuichiro Tagane, 29 February 2024, Journal of Plant Research. DOI: 10.1007/s10265-024-01532-5 This study was supported by the PRESTO program (grant JPMJPR21D6) of the Japan Science and Technology Agency, the JSPS KAKENHI (grant 21K06307), and the Environment Research and Technology Development Fund (grant JPMEERF20204001) of the Ministry of the Environment, Japan. It was conducted in collaboration with an independent researcher and researchers from Kyoto University and the Kagoshima University Museum. RE98915RGPOIOKJ 士林夜市-吉彖皮蛋涼麵會不會膩? 》台北夜市美食2026最新版|10家必吃大評比胡記米粉湯值得一試嗎? 》台北小吃美食最值得吃的10家餐廳|實訪整理藍家割包需要加料嗎? 》台北夜市美食餐廳怎麼挑?10家人氣店幫你選 |
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