身為一個熱愛美食、喜歡在城市裡挖掘驚喜的人,臺中公益路一直是我最常出沒的地方之一。這條路可說是「臺中人的美食戰場」,從精緻西餐到創意火鍋,從日式丼飯到義式早午餐,每走幾步,就會有完全不同的特色料理餐廳。
這次我特別花了一整個月,實際造訪了公益路上十間口碑不錯的餐廳。有的是網友熱推的打卡名店,也有隱藏在巷弄裡的小驚喜。我以環境氛圍、口味表現、價格CP值與再訪意願為基準,整理出這篇實測評比。希望能幫正在猶豫去哪裡吃飯的你,找到那一間「吃完會想再來」的餐廳。
評比標準與整理方向
這次我走訪的10家餐廳橫跨不同料理類型,從高質感牛排館到巷弄系早午餐,每一間都有自己獨特的風格。為了讓整體比較更客觀,我依照以下四大面向進行評比,並搭配實際用餐體驗來打分。
評分項目 |
滿分5分 |
評比重點 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
用餐空間是否舒適、有設計感、適合聚會或約會 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
餐點是否新鮮、調味平衡、有無記憶點 |
|
CP值 |
⭐⭐⭐⭐⭐ |
價位與份量是否合理,是否值得回訪 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
整體體驗是否令人想再來、服務是否加分 |
整體而言,我希望這份評比不只是「哪家好吃」,而是幫你在不同情境下(約會、家庭聚餐、朋友小聚、商業午餐)都能快速找到合適的選擇。畢竟,美食不只是味覺的滿足,更是一段段與朋友共享的生活記憶。
10間臺中公益路餐廳評比懶人包
公益路向來是臺中人聚餐的首選地段,從火鍋、燒肉到中式料理與早午餐,每走幾步就有驚喜。以下是我實際造訪過的10間代表性餐廳清單,橫跨平價、創意、高級各路風格。
餐廳名稱 |
料理類型 |
價位範圍(每人) |
推薦菜色 |
適合族群 |
我的評價摘要 |
|
1️⃣ 一頭牛日式燒肉 |
和牛燒肉 |
$1200~$1400 |
A5和牛拼盤、 旬味野炊飯 |
情侶慶祝、燒肉愛好者 |
肉質頂級、陶瓷烤爐,沒有用木炭 |
|
2️⃣ TANG Zhan 湯棧 |
火鍋 / 麻香鍋 |
$500–$800 |
麻香鍋、麻油雞鍋 |
情侶、朋友、文青聚會 |
文青風火鍋代表,湯底濃郁卻不膩、環境質感佳 |
|
3️⃣ NINI 尼尼臺中店 |
義式料理 / 早午餐 |
$400–$700 |
松露燉飯、薄餅披薩 |
姊妹聚會、家庭聚餐 |
採光好、氣氛輕鬆,餐點份量實在 |
|
4️⃣ 加分100%浜中特選昆布鍋物 |
北海道鍋物 |
$400–$700 |
牛奶昆布鍋、海鮮拼盤 |
家庭聚餐、親子用餐 |
湯底細緻清爽、CP值高、服務親切 |
|
5️⃣ 印月餐廳 |
中式創意料理 / 宴會餐廳 |
$800–$1500 |
松露雞湯、蒜香牛肋條 |
商務宴客、家庭聚餐 |
菜色融合創意與傳統,氣氛高雅 |
|
6️⃣ KoDō 和牛燒肉 |
高檔日式燒肉 |
$1200–$2000 |
冷藏肋眼、壽喜燒套餐 |
節慶慶祝、燒肉控 |
儀式感十足、肉質極佳、服務細膩 |
|
7️⃣ 永心鳳茶 |
臺式茶館 / 早午餐 |
$300–$500 |
炸雞腿飯、鳳茶甜點 |
姊妹下午茶、親子餐聚 |
茶香融入料理,氛圍優雅放鬆 |
|
8️⃣ 三希樓 |
江浙菜 / 港點 |
$600–$900 |
小籠包、東坡肉 |
家庭聚餐、長輩慶生 |
火候精準、味道穩定,傳統中菜代表 |
|
9️⃣ 一笈壽司 |
日式壽司 / 無菜單料理 |
$1000–$1500 |
握壽司套餐、生魚片 |
日料控、紀念日用餐 |
食材新鮮、主廚手藝細膩,私密高雅 |
|
🔟 茶六燒肉堂 |
和牛燒肉 / 精緻套餐 |
$700–$1000 |
厚切牛舌、和牛拼盤 |
家庭、情侶、朋友聚餐 |
品質穩定、氣氛熱絡,年輕族群最愛 |
一頭牛日式燒肉|炭香濃郁的和牛饗宴,約會聚餐首選
走在公益路上,很難不被 一頭牛日式燒肉 的木質外觀吸引。低調卻不失質感的門面,搭配昏黃燈光與暖色調的內裝,讓人一進門就感受到濃濃的日式職人氛圍。店內空間不大,但桌距規劃得宜,每桌皆設有獨立排煙設備,烤肉時完全不怕滿身油煙味。
餐點特色
一頭牛的靈魂,絕對是他們招牌的「三國和牛拼盤」。
嚴選的和牛部位,共八個部位、十樣餐點,讓人能從牛頭一路品嘗到牛尾。
油花分布均勻、切片厚薄恰好,經過炭火烤炙後香氣四溢,焦香與油脂在口中交融,入口即化的滑順感令人難忘。
值得一提的是,一頭牛的菜單設計十分彈性
想要一次體驗完整套餐也可以,偏好客製口味則能自由單點組合,不受套餐限制,想吃什麼就點什麼。
而且每桌都能選擇「自行燒烤」或「專人代烤」服務,代烤師的火侯掌握與節奏讓整體體驗更輕鬆愉快。
除了主角和牛,旬味野炊飯 與 主廚冰淇淋 也是隱藏版亮點,前者粒粒分明、香氣撲鼻;後者以香草與焙茶為基底,隨季節更換口味,完美收尾。整體服務親切熱情,特別是壽星還能享有 生日畫盤驚喜,讓慶祝時刻更添儀式感。
用餐體驗
整體節奏掌握得非常好。店員會在你剛想烤下一片肉時貼心遞上夾子、幫忙換烤網,讓人完全不用分心。整場用餐過程就像一場表演,從視覺、嗅覺到味覺都被滿足。
如果是第一次約會或慶祝特別節日,這裡的氛圍既不尷尬又不吵鬧,是營造氣氛的理想選擇。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
光線柔和、氣氛沉穩,極具日式質感 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
A5和牛入口即化、炭香迷人 |
|
CP值 |
⭐⭐⭐⭐ |
價格略高但品質與服務對得起價位 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
適合慶祝、約會,一吃就難忘的燒肉店 |
地址:408臺中市南屯區公益路二段162號
電話:04-23206800
官網:http://www.marihuana.com.tw/yakiniku/index.html
小結語
一頭牛日式燒肉不僅是「吃肉的地方」,更像是一場五感盛宴。從進門那一刻到最後一道甜點,都能感受到他們對細節的用心。
若要在公益路找一間能讓人「邊吃邊微笑」的燒肉店,一頭牛 絕對值得列入你的必訪清單。
TANG Zhan 湯棧|文青系火鍋代表,麻香湯底與視覺美感並重
在公益路這條美食戰線上,TANG Zhan 湯棧 是讓人一眼就會想走進去的那一種。
黑灰調的現代外觀、搭配微霧玻璃與招牌的「湯棧」燈字,呈現出一種低調的時尚感。
店內設計延續品牌主題,以「湯」為靈魂打造整體體驗,從裝潢到香氣,都有濃厚的溫潤氣息。
餐點特色
湯棧最有名的當然是它的「麻香鍋」。
湯底以雞骨與多種辛香料慢熬,香氣濃郁卻不嗆辣,入口後會在喉間留下柔和的花椒香。
「招牌麻油雞鍋」與「黃金牛奶鍋」也是人氣選項,特別是在冬天,溫潤的湯底配上滑嫩肉片,讓人每一口都覺得暖心。
他們的「滷肉飯」和「香蔥豆腐皮」更是許多老客人必點的靈魂配角,簡單卻有記憶點。
用餐體驗
整體氛圍比一般火鍋店更有質感。
桌距寬敞、燈光柔和,店員動作俐落又親切。即使客滿,也不會感覺吵雜或壓迫。
不論是一個人想靜靜吃鍋、或是朋友聚餐,湯棧都能給你剛剛好的距離與溫度。
值得一提的是,上菜速度快、湯底續湯毫不手軟,細節服務到位。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
文青感強、光線柔和,是拍照好選擇 |
|
口味表現 |
⭐⭐⭐⭐☆ |
麻香濃郁、湯頭層次豐富、不油不膩 |
|
CP值 |
⭐⭐⭐⭐ |
份量足、價格中等偏上 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
冬天或雨天時會特別想再訪的火鍋店 |
地址:408臺中市南屯區公益路二段248號
電話:04-22580617
官網:https://www.facebook.com/TangZhan.tw/
小結語
TANG Zhan 湯棧 把傳統火鍋做出新的樣貌
保留臺式鍋物的溫度,又結合現代風格與細節服務,讓吃鍋這件事變得更有品味。
如果你想找一間兼具「好吃、好拍、好放鬆」的火鍋店,湯棧會是公益路上最有風格的選擇之一。
NINI 尼尼臺中店|明亮寬敞的義式早午餐天堂
如果說前兩間是肉食愛好者的天堂,那 NINI 尼尼臺中店 絕對是想放鬆、聊聊天的好地方。餐廳外觀以白色系與大片玻璃窗為主,陽光灑進室內,讓人一踏入就有種度假般的輕盈感。假日早午餐時段特別熱鬧,建議提早訂位。
餐點特色
NINI 的菜單融合義式與臺灣人口味,選擇多樣且份量十足。主打的 松露燉飯 濃郁卻不膩口,米芯保留微Q口感;而 香蒜海鮮義大利麵 則以新鮮白蝦、花枝與淡菜搭配微辣蒜香,口感層次豐富。
此外,他們的薄餅披薩相當受歡迎,餅皮薄脆、餡料新鮮,是三五好友共享的好選擇。
用餐體驗
店內氣氛輕鬆不拘謹,無論是一個人帶電腦工作、或朋友聚餐,都能找到舒服角落。餐點上桌速度穩定,服務人員態度親切、補水與收盤都非常主動。整體節奏讓人覺得「時間變慢了」,很適合想遠離忙碌日常的人。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
採光好、座位寬敞,氛圍悠閒舒適 |
|
口味表現 |
⭐⭐⭐⭐ |
義式風味穩定,燉飯與披薩表現亮眼 |
|
CP值 |
⭐⭐⭐⭐ |
價位合理、份量實在 |
|
再訪意願 |
⭐⭐⭐⭐ |
適合假日早午餐或輕鬆聚會再訪 |
地址:40861臺中市南屯區公益路二段18號
電話:04-23288498
小結語
NINI 尼尼臺中店是一間能讓人放下手機、慢慢吃飯的餐廳。餐點不追求浮誇,而是以「剛剛好」的份量與風味,陪伴每個平凡午後。
如果你在找一間能邊吃邊聊天、拍照也漂亮的早午餐店,NINI 會是你在公益路上最不費力的幸福選擇。
加分100%浜中特選昆布鍋物|平價卻用心的湯頭系火鍋,家庭聚餐好選擇
在公益路這條高質感餐廳林立的戰場上,加分100%浜中特選昆布鍋物 走的是截然不同的路線。它沒有浮誇的裝潢、也沒有高價位的套餐,但靠著實在的湯頭與親切的服務,默默吸引許多回頭客。每到用餐時間,總能看到家庭或情侶三兩成群地圍著鍋邊聊天。
餐點特色
主打 北海道浜中昆布湯底,湯頭清澈卻不單薄,越煮越能喝出海藻與柴魚的自然香氣。
我這次點的是「牛奶昆布鍋」,入口時奶香與昆布香完美融合,搭配新鮮的牛五花肉片,滑順又不膩。
菜盤走健康取向,蔬菜比例高,連玉米、南瓜、豆皮都能吃出甜味;附餐的烏龍麵Q彈有嚼勁,吃完十分有飽足感。
用餐體驗
整體氛圍偏家庭取向,桌距寬敞、座位舒適,帶小孩來也不覺擁擠。店員態度親切,補湯、收盤都很勤快,給人一種「被照顧著」的安心感。
最難得的是,即使價位不高,食材新鮮度仍維持得很好,能感受到店家對品質的堅持。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐ |
簡約乾淨、座位舒適,適合家庭聚餐 |
|
口味表現 |
⭐⭐⭐⭐☆ |
湯頭清爽細緻、奶香與昆布香交融自然 |
|
CP值 |
⭐⭐⭐⭐⭐ |
份量足、價位親民,整體表現超值 |
|
再訪意願 |
⭐⭐⭐⭐☆ |
想吃鍋又不想花太多時的首選 |
地址:403臺中市西區公益路288號
電話:0910855180
小結語
加分100%浜中特選昆布鍋物是一間「不浮誇、但會讓人想再訪」的火鍋店。它不追求豪華擺盤,而是用最簡單的湯頭與新鮮食材,傳遞出家常卻不平凡的溫度。
如果你想在公益路找一間可以放心帶家人一起吃的鍋物店,這裡絕對會讓人感到「加分」不少。
印月餐廳|中式料理的藝術演繹,宴客與家庭聚會首選
說到臺中公益路的中式料理代表,印月餐廳 絕對是榜上有名。這間開業多年的餐廳以「中菜西吃」的概念聞名,把傳統中式料理以現代手法重新詮釋。從建築外觀到餐具擺設,每個細節都散發著低調的典雅氣息。
走進印月,挑高的空間、柔和的燈光與木質桌椅構成沉穩的氛圍。
不論是家庭聚餐、商務宴客,還是節日慶祝,都能找到恰到好處的格調。
餐點特色
印月最令人印象深刻的是他們將傳統中菜融入創意手法。
這次我品嚐的「松露雞湯」香氣濃郁、層次分明,一口下去既有中式的溫潤感,又帶出西式松露的奢華香氣。
「蒜香牛肋條」則是另一道招牌菜,外酥內嫩、油香十足,咬下去肉汁在口中散開,搭配特調醬汁非常過癮。
此外,他們的創意港點如「麻辣小籠包」與「金沙流沙包」也深受年輕客群喜愛,既保留經典又玩出新意。
用餐體驗
服務方面完全對得起餐廳的高級定位。從入座、點餐到上菜節奏,都拿捏得恰如其分。每道菜都會有服務人員細心介紹食材與吃法,讓人感受到「被款待」的尊榮感。
雖然價位偏中高,但在這樣的氛圍與品質下,物有所值。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
典雅寬敞、氣氛沈穩,宴客首選 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
每道菜都有層次與記憶點,融合創意與傳統 |
|
CP值 |
⭐⭐⭐⭐ |
價位偏高但品質穩定 |
|
再訪意願 |
⭐⭐⭐⭐☆ |
節慶或招待長輩時會再次選擇 |
地址:408臺中市南屯區公益路二段818號
電話:0422511155
小結語
印月餐廳是一間「不只吃飯,更像品味生活」的地方。
它成功地讓中式料理不再只是圓桌菜,而是能展現質感、講究細節的美食體驗。
若你在找一間能同時滿足味蕾與體面的餐廳,印月 絕對是公益路上的不敗經典。
KoDō 和牛燒肉|極致職人精神,專為儀式感與頂級味覺而生
若要形容 KoDō 和牛燒肉 的用餐體驗,一句話足以總結——「像在欣賞一場關於肉的表演」。
隱身在公益路一隅,KoDō 的外觀低調典雅,店內以深色木質調與間接照明營造出沉穩氛圍。
從踏入店門那一刻開始,服務人員的態度、動線、聲音控制,全都精準到位,讓人彷彿走進日式劇場。
餐點特色
這裡主打 日本A5和牛冷藏肉,以「精切厚燒」的方式呈現。
我點的「壽喜燒風和牛套餐」是本日最驚艷的一道——服務人員現場以鐵鍋輕煎,再淋上特製壽喜燒醬汁,香氣瞬間瀰漫整桌。
肉片油花細緻、入口即化,搭配生蛋液後更添柔滑口感。
另一道「冷藏肋眼心」則保留了和牛的彈性與甜度,每一口都能感受到油脂與炭火交織出的層次。
即使是配角如「季節小菜」與「日式和風飯」也毫不馬虎,整體呈現出高級卻不造作的平衡。
用餐體驗
KoDō 的最大特色是「儀式感」。
每位店員的動作都有節奏,從擺盤、火候、換網到講解,都像排練過無數次的演出。
在這裡用餐,會自然地放慢速度,專注於每一口肉帶來的細膩變化。
特別推薦搭配店內的紅酒或日本威士忌,風味更加圓潤。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
私密高雅、光線柔和,極具儀式感 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
和牛品質極高、火候掌控完美 |
|
CP值 |
⭐⭐⭐☆ |
價位高,但每一口都吃得出誠意 |
|
再訪意願 |
⭐⭐⭐⭐☆ |
節慶、紀念日值得再次造訪 |
地址:403臺中市西區公益路260號
電話:0423220312
官網:https://www.facebook.com/kodo2018/
小結語
KoDō 和牛燒肉不是日常餐廳,而是一場體驗。
從環境、服務到食材,每個細節都讓人感受到對「完美」的執著。
若你想在公益路找一間能讓人留下深刻印象、適合紀念日慶祝的餐廳,KoDō 絕對是值得收藏的一次「味覺儀式」。
永心鳳茶|在茶香裡用餐的優雅時光,臺味早午餐的新詮釋
走進 永心鳳茶公益店,彷彿進入一間有氣質的茶館。
柔和的燈光灑在復古綠牆上,搭配大理石桌面與金色餐具,整體氛圍既典雅又帶有一絲文青氣息。
這裡不只是喝茶的地方,更像是把「臺灣味」以早午餐的形式重新演繹。
餐點特色
永心鳳茶的餐點結合中式靈魂與西式擺盤,無論是「炸雞腿飯」還是「紅玉紅茶拿鐵」,都能讓人感受到熟悉卻不平凡的味道。
炸雞腿外酥內嫩,搭配自製酸菜與溏心蛋,鹹香中帶著層次感。
「鳳茶甜點拼盤」則以茶為靈魂——伯爵茶蛋糕、烏龍茶奶酪、紅茶雪酥,每一口都有細緻的香氣變化。
最特別的是他們的茶飲,從臺灣高山紅茶到金萱冷泡茶,每一壺都現泡現倒,香氣清雅。
對我而言,這不只是一頓飯,更是一段放鬆的午後儀式。
用餐體驗
店內服務人員態度溫和,對茶品介紹詳盡。上餐節奏剛好,不急不徐。
整體氛圍很「耐坐」,許多客人吃完正餐後仍會續點一壺茶聊天。
音樂輕柔、光線柔和,是那種可以靜靜待上兩小時的地方。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
優雅放鬆、裝潢細緻,是拍照與休憩首選 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
茶香融入料理,整體風味溫潤平衡 |
|
CP值 |
⭐⭐⭐⭐ |
餐點份量適中、價位合理 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
想放鬆、聊天、喝好茶時會立刻想到這裡 |
地址:40360臺中市西區公益路68號三樓(勤美誠品)
電話:0423221118
小結語
永心鳳茶讓人重新定義「臺味」。
它不走傳統路線,而是把熟悉的元素以更細緻、更現代的方式呈現。
無論是姊妹下午茶、親子餐聚,或是想一個人沉澱片刻,永心鳳茶 都是一處能讓人慢下來、品味生活的好地方。
三希樓|老饕級江浙功夫菜,穩重又帶人情味的中式饗宴
位於公益路上的 三希樓 是許多臺中老饕的口袋名單。
它沒有浮誇的裝潢,卻有一種低調的自信。從大門進入,就能聞到淡淡的醬香與蒸氣味,那是正宗江浙菜的靈魂。
整體裝潢以深木色為主,搭配圓桌與包廂設計,非常適合家庭聚餐或請客宴會。
餐點特色
三希樓的菜色以 江浙與港式料理 為主,兼顧傳統與現代風味。
我這次點了「東坡肉」與「蝦仁炒飯」,兩道都展現了主廚深厚的火候功力。
東坡肉油亮卻不膩,入口即化、鹹甜交織;蝦仁炒飯粒粒分明、香氣十足,每一口都吃得到鑊氣。
此外,「小籠包」皮薄多汁,是幾乎每桌必點的招牌;港點類如「金牌流沙包」與「干貝燒賣」也都表現穩定。
用餐體驗
三希樓的服務給人一種老派但貼心的感覺。
店員上菜節奏掌握得很好,會主動幫忙分菜、收盤,態度沉穩而不打擾。
最讓我印象深刻的是,這裡的客群非常多元——有帶長輩的家庭、公司聚餐,也有情侶共度節日,卻都能在同一空間裡感到自在。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐ |
傳統圓桌設計、氛圍穩重舒適 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
火候精準、味道濃郁,經典不失真 |
|
CP值 |
⭐⭐⭐⭐ |
價格合理、份量足,適合多人共享 |
|
再訪意願 |
⭐⭐⭐⭐ |
家庭聚餐與宴客的安心首選 |
地址:408臺中市南屯區公益路二段95號
電話:0423202322
官網:https://www.sanxilou.com.tw/
小結語
三希樓是一間「吃得出功夫」的餐廳。
它不追求創新,而是用穩定的味道與真材實料,抓住每一位饕客的胃。
如果你想在公益路上找一間能兼顧長輩口味、氣氛又不拘謹的中餐廳,三希樓 絕對是最穩妥的選擇。
一笈壽司|低調奢華的無菜單日料,職人手藝詮釋旬味極致
在熱鬧的公益路上,一笈壽司 低調得幾乎不顯眼。
外觀簡約,沒有華麗招牌,只有小小的木質門面與柔黃燈光。
一推開門,迎面而來的是日式杉木香氣與寧靜的氛圍,吧檯座位整齊排列,主廚站在中間,彷彿舞臺上的演出者。
餐點特色
一笈壽司採 Omakase(無菜單料理) 形式,每一餐都由主廚根據當日食材設計。
我這次選擇中價位套餐(約 $1200),共十多道料理,從前菜、小鉢、刺身、握壽司到甜點一氣呵成。
「比目魚鰭邊握」是整場最驚豔的瞬間——主廚以火槍輕炙,油脂瞬間釋放,入口後化成柔滑香氣。
「甜蝦海膽軍艦」則完美展現鮮度與層次感,海膽甘甜、甜蝦緊實。
搭配主廚親自調配的醬汁,每一口都像在品嚐季節的節奏。
用餐體驗
整場用餐約90分鐘,節奏緩慢但沉穩。
主廚會邊料理邊與客人互動,介紹魚種產地與食材處理方式。
雖然整體空間不大,但氣氛極佳——柔和的音樂、清酒的香氣、刀刃切魚時的聲音,讓人完全沉浸其中。
特別喜歡他們最後的甜點「焙茶奶酪」,收尾清爽優雅,為整場體驗畫下完美句點。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐⭐ |
私密安靜、燈光柔和,儀式感十足 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
食材新鮮、刀工精準、層次分明 |
|
CP值 |
⭐⭐⭐⭐ |
以品質與體驗來說,價位合理 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
適合紀念日或想犒賞自己時再訪 |
地址:408臺中市南屯區公益路二段25號
電話:0423206368
官網:https://www.facebook.com/YIJI.sushi/
小結語
一笈壽司是一間真正讓人「放慢呼吸」的餐廳。
這裡沒有多餘擺盤,也不靠噱頭,而是以主廚對食材的尊重與技術堆疊出一場味覺饗宴。
若你想在公益路體驗日本料理最純粹的精神,一笈壽司 絕對值得你預約、靜靜期待。
茶六燒肉堂|人氣爆棚的和牛燒肉聖地,肉香與幸福感同時滿分
若要票選公益路上「最難訂位」的餐廳,茶六燒肉堂 絕對名列前茅。
不管平日或假日,用餐時段幾乎一位難求。外觀以木質格柵搭配大面玻璃設計,呈現出年輕又有質感的風格。店內空間明亮、桌距適中,播放著輕快的音樂,整體氛圍熱鬧中帶點高級感,是許多年輕人聚餐、慶生的首選地。
餐點特色
茶六主打 和牛燒肉套餐,價格約落在 $700–$1000 間,份量與品質兼具。
我這次點的是「厚切牛舌套餐」,肉片厚實彈牙,略帶脆感,搭配鹽蔥提味剛剛好。
另一道「和牛拼盤」也相當受歡迎,油花分布均勻、香氣濃郁,輕烤幾秒即可入口即化。
套餐附餐部分也相當用心:沙拉新鮮、味噌湯濃郁,最後還有一份「茶香冰淇淋」作結尾,香氣清爽,完美收尾。
用餐體驗
茶六的服務效率相當高。店員親切、換網勤快、補水速度快,整場用餐流程流暢無壓力。
雖然客人很多,但環境維持得乾淨整潔,動線規劃良好。
最令人印象深刻的是他們的 整體節奏拿捏得剛剛好 ——餐點上桌快、氣氛熱絡,卻不會讓人覺得匆忙。
不論是朋友聚會、家庭聚餐,甚至是情侶約會,都能找到各自的樂趣。
綜合評分
|
評分項目 |
分數(滿分5分) |
評語 |
|
環境氛圍 |
⭐⭐⭐⭐ |
明亮活潑、氣氛熱絡但不嘈雜 |
|
口味表現 |
⭐⭐⭐⭐⭐ |
肉質穩定、調味自然、甜點有記憶點 |
|
CP值 |
⭐⭐⭐⭐⭐ |
價格實在、份量足,是高回訪率代表 |
|
再訪意願 |
⭐⭐⭐⭐⭐ |
聚會、慶生都會再次選擇的燒肉店 |
地址:403臺中市西區公益路268號
電話:0423281167
官網:https://inline.app/booking/-L93VSXuz8o86ahWDRg0:inline-live-karuizawa/-LUYUEIOYwa7GCUpAFWA
小結語
茶六燒肉堂用「穩定品質+輕奢氛圍」抓住了臺中年輕族群的心。
不論是第一次約會還是老朋友重聚,都能在這裡找到屬於燒肉的快樂節奏。
若你在公益路只想挑一家「保證不踩雷」的燒肉店,茶六燒肉堂 絕對是首選。
吃完10家公益路餐廳後的心得與結語
吃完這十家餐廳後,臺中公益路不只是一條美食街,而是一段生活風景線。
有的餐廳講究細膩與儀式感,像 一頭牛日式燒肉 與 一笈壽司,讓人感受到食材最純粹的美好
有的則以親切與溫度打動人心,像 加分昆布鍋物、永心鳳茶,讓人明白吃飯不只是為了飽足,而是一種被照顧的幸福。
而像茶六燒肉堂、TANG Zhan 湯棧 這類人氣名店,則用穩定的品質與熱絡的氛圍,成為許多臺中人心中「想吃肉就去那裡」的代名詞。
這十家店,構成了公益路最動人的縮影
有華麗的,也有溫柔的;有傳統的,也有創新的。
每一家都在自己的風格裡發光,讓人吃到的不只是料理,而是一種生活的溫度與節奏。
對我而言,這不僅是一場美食旅程,更是一趟關於「臺中味道」的回憶之旅。
FAQ:關於臺中公益路美食常見問題
Q1:公益路哪一區的餐廳最集中?
最熱鬧的區段大約在「公益路與黎明路口」一帶,這裡聚集了許多知名餐廳,從高級燒肉到早午餐通通有。
像 一頭牛日式燒肉、TANG Zhan 湯棧、茶六燒肉堂 都在這附近,交通方便、停車也相對容易。
Q2:需要提前訂位嗎?
公益路的熱門餐廳幾乎都建議 提早3~5天訂位,尤其是假日或節慶期間。
特別是 一頭牛日式燒肉、KoDō 和牛燒肉、一笈壽司 這幾家,若臨時前往幾乎很難有位。
最後的話
若要用一句話形容這趟美食之旅,我會說:
「在公益路,吃飯不是選擇,而是一種享受。」
這條路上的每一次用餐,都像一段城市裡的小旅行。
下次當你不確定想吃什麼時,不妨沿著公益路走一圈,或許下一家,正好就是你新的最愛。
加分100%浜中特選昆布鍋物價格合理嗎?
如果你也和我一樣喜歡用味蕾探索一座城市,那就把這篇公益路美食攻略收藏起來吧。NINI 尼尼臺中店適合辦部門小聚嗎?
無論是約會、慶生、家庭聚餐,或只是想犒賞一下辛苦的自己——這條路上永遠會有一間剛剛好的餐廳在等你。KoDō 和牛燒肉口味偏臺式還是日式?
下一餐,不妨從這10家開始。一笈壽司用餐環境舒服嗎?
打開手機、約上朋友,讓公益路成為你生活裡最容易抵達的小確幸。一笈壽司團體宴客合適嗎?
如果你有私心愛店,也歡迎留言分享,NINI 尼尼臺中店再訪意願高嗎?
你的推薦,可能讓我下一趟美食旅程變得更精彩。KoDō 和牛燒肉有提供尾牙方案嗎?
Scientists are deciphering the nuclear pore complex in incredible detail. Credit: Valerie Altounian Scientists have mapped the nuclear pore complex, revealing its structure and role in disease, paving the way for new research and treatments. Many of us learned the basic cell structure at some point and will recall components like the cell membrane, cytoplasm, mitochondrion, and nucleus. However, the structure of our cells is actually vastly more complicated than you may have thought. In fact, because we have been discovering so much over the years, we now know that cells are far more complex than even expert biologists realized not too long ago. One element of particular complexity is the nuclear pore complex. Surrounding the eukaryotic cell nucleus is a double membrane, the nuclear envelope, which encloses the genetic material of the cell nucleus. Spanning that nuclear envelope is the nuclear pore complex, which though microscopic in size, is incredibly complex molecular machinery comprised of a vast number of different proteins. Whatever you are doing, whether it is driving a car, going for a jog, or even at your laziest, eating chips and watching TV on the couch, there is an entire suite of molecular machinery inside each of your cells hard at work. That machinery, far too small to see with the naked eye or even with many microscopes, creates energy for the cell, manufactures its proteins, makes copies of its DNA, and much more. Among those pieces of machinery, and one of the most complex, is something known as the nuclear pore complex (NPC). The NPC, which is made of more than 1,000 individual proteins, is an incredibly discriminating gatekeeper for the cell’s nucleus, the membrane-bound region inside a cell that holds that cell’s genetic material. Anything going in or out of the nucleus has to pass through the NPC on its way. A molecular model of the outside (cytoplasmic) face of the nuclear pore complex. Reprinted with permission from C.J. Bley et al., Science 376, eabm9129 (2022). Credit: Hoelz Laboratory/Caltech The NPC’s role as a gatekeeper of the nucleus means it is vital for the operations of the cell. Within the nucleus, DNA, the cell’s permanent genetic code, is copied into RNA. That RNA is then carried out of the nucleus so it can be used to manufacture the proteins the cell needs. The NPC ensures the nucleus gets the materials it needs for synthesizing RNA, while also protecting the DNA from the harsh environment outside the nucleus and enabling the RNA to leave the nucleus after it has been made. “It’s a little like an airplane hangar where you can repair 747s, and the door opens to let the 747 come in, but there’s a person standing there who can keep a single marble from getting out while the doors are open,” says Caltech’s André Hoelz, professor of chemistry and biochemistry and a Faculty Scholar of the Howard Hughes Medical Institute. For more than two decades, Hoelz has been studying and deciphering the structure of the NPC in relation to its function. Over the years, he has steadily chipped away at its secrets, unraveling them piece by piece by piece by piece. The implications of this research are potentially huge. Not only is the NPC central to the operations of the cell, it is also involved in many diseases. Mutations in the NPC are responsible for some incurable cancers, for neurodegenerative and autoimmune diseases such as amyotrophic lateral sclerosis (ALS) and acute necrotizing encephalopathy, and for heart conditions including atrial fibrillation and early sudden cardiac death. Additionally, many viruses, including the one responsible for COVID-19, target and shutdown the NPC during the course of their lifecycles. Now, in a pair of papers published in the journal Science, Hoelz and his research team describe two important breakthroughs: the determination of the structure of the outer face of the NPC and the elucidation of the mechanism by which special proteins act like a molecular glue to hold the NPC together. A Very Tiny 3D Jigsaw Puzzle In their paper titled “Architecture of the cytoplasmic face of the nuclear pore,” Hoelz and his research team describe how they mapped the structure of the side of the NPC that faces outward from the nucleus and into the cells’ cytoplasm. To do this, they had to solve the equivalent of a very tiny 3-D jigsaw puzzle, using imaging techniques such as electron microscopy and X-ray crystallography on each puzzle piece. Stefan Petrovic, a graduate student in biochemistry and molecular biophysics and one of the co-first authors of the papers, says the process began with Escherichia coli bacteria (a strain of bacteria commonly used in labs) that were genetically engineered to produce the proteins that make up the human NPC. “If you walk into the lab, you can see this giant wall of flasks in which cultures are growing,” Petrovic says. “We express each individual protein in E. coli cells, break those cells open, and chemically purify each protein component.” Once that purification—which can require as much as 1,500 liters of bacterial culture to get enough material for a single experiment—was complete, the research team began to painstakingly test how the pieces of the NPC fit together. George Mobbs, a senior postdoctoral scholar research associate in chemistry and another co- first author of the paper, says the assembly happened in a “stepwise” fashion; rather than pouring all the proteins together into a test tube at the same time, the researchers tested pairs of proteins to see which ones would fit together, like two puzzle pieces. If a pair was found that fit together, the researchers would then test the two now-combined proteins against a third protein until they found one that fit with that pair, and then the resulting three-piece structure was tested against other proteins, and so on. Working their way through the proteins in this way eventually produced the final result of their paper: a 16-protein wedge that is repeated eight times, like slices of a pizza, to form the face of the NPC. “We reported the first complete structure of the entire cytoplasmic face of the human NPC, along with rigorous validation, instead of reporting a series of incremental advances of fragments or portions based on partial, incomplete, or low-resolution observation,” says Si Nie, postdoctoral scholar research associate in chemistry and also a co-first author of the paper. “We decided to patiently wait until we had acquired all necessary data, reporting a humungous amount of new information.” Their work complemented research conducted by Martin Beck of the Max Planck Institute of Biophysics in Frankfurt, Germany, whose team used cryo-electron tomography to generate a map that provided the contours of a puzzle into which the researchers had to place the pieces. To accelerate the completion of the puzzle of the human NPC structure, Hoelz and Beck exchanged data more than two years ago and then independently built structures of the entire NPC. “The substantially improved Beck map showed much more clearly where each piece of the NPC—for which we determined the atomic structures—had to be placed, akin to a wooden frame that defines the edge of a puzzle,” Hoelz says. The experimentally determined structures of the NPC pieces from the Hoelz group served to validate the modeling by the Beck group. “We placed the structures into the map independently, using different approaches, but the final results completely agreed. It was very satisfying to see that,” Petrovic says. “We built a framework on which a lot of experiments can now be done,” says Christopher Bley, a senior postdoctoral scholar research associate in chemistry and also co-first author. “We have this composite structure now, and it enables and informs future experiments on NPC function, or even diseases. There are a lot of mutations in the NPC that are associated with terrible diseases, and knowing where they are in the structure and how they come together can help design the next set of experiments to try and answer the questions of what these mutations are doing.” “This Elegant Arrangement of Spaghetti Noodles” In the other paper, titled “Architecture of the linker-scaffold in the nuclear pore,” the research team describes how it determined the entire structure of what is known as the NPC’s linker-scaffold—the collection of proteins that help hold the NPC together while also providing it with the flexibility it needs to open and close and to adjust itself to fit the molecules that pass through. Hoelz likens the NPC to something built out of Lego bricks that fit together without locking together and are instead lashed together by rubber bands that keep them mostly in place while still allowing them to move around a bit. The nuclear pore complex (NPC) is able to expand and contract to adapt to the needs of the cell. Reprinted with permission from S. Petrovic et al., Science 376, eabm9798 (2022). Credit: Hoelz Laboratory/Caltech “I call these unstructured glue pieces the ‘dark matter of the pore,'” Hoelz says. “This elegant arrangement of spaghetti noodles holds everything together.” The process for characterizing the structure of the linker-scaffold was much the same as the process used to characterize the other parts of the NPC. The team manufactured and purified large amounts of the many types linker and scaffold proteins, used a variety of biochemical experiments and imaging techniques to examine individual interactions, and tested them piece by piece to see how they fit together in the intact NPC. To check their work, they introduced mutations into the genes that code for each of those linker proteins in a living cell. Since they knew how those mutations would change the chemical properties and shape of a specific linker protein, making it defective, they could predict what would happen to the structure of the cell’s NPCs when those defective proteins were introduced. If the cell’s NPCs were functionally and structurally defective in the way they expected, they knew they had the correct arrangement of the linker proteins. “A cell is much more complicated than the simple system we create in a test tube, so it is necessary to verify that results obtained from in vitro experiments hold up in vivo,” Petrovic says. The assembly of the NPC’s outer face also helped solve a longtime mystery about the nuclear envelope, the double membrane system that surrounds the nucleus. Like the membrane of the cell within which the nucleus resides, the nuclear membrane is not perfectly smooth. Rather, it is studded with molecules called integral membrane proteins (IMPs) that serve in a variety of roles, including acting as receptors and helping to catalyze biochemical reactions. Although IMPs can be found on both the inner and outer sides of the nuclear envelope, it had been unclear how they actually traveled from one side to the other. Indeed, because IMPs are stuck inside of the membrane, they cannot just glide through the central transport channel of the NPC as do free-floating molecules. Once Hoelz’s team understood the structure of the NPC’s linker-scaffold, they realized that it allows for the formation of little “gutters” around its outside edge that allow the IMPs to slip past the NPC from one side of the nuclear envelope to the other while always staying embedded in the membrane itself. “It explains a lot of things that have been enigmatic in the field. I am very happy to see that the central transport channel indeed has the ability to dilate and form lateral gates for these IMPs, as we had originally proposed more than a decade ago,” Hoelz says. Taken together, the findings of the two papers represent a leap forward in scientists’ understanding of how the human NPC is built and how it works. The team’s discoveries open the door for much more research. “Having determined its structure, we can now focus on working out the molecular bases for the NPC’s functions, such as how mRNA gets exported and the underlying causes for the many NPC-associated diseases with the goal of developing novel therapies,” Hoelz says. The papers describing the work appear in the June 10 issue of the journal Science. References: “Architecture of the cytoplasmic face of the nuclear pore” by Christopher J. Bley, Si Nie, George W. Mobbs, Stefan Petrovic, Anna T. Gres, Xiaoyu Liu, Somnath Mukherjee, Sho Harvey, Ferdinand M. Huber, Daniel H. Lin, Bonnie Brown, Aaron W. Tang, Emily J. Rundlet, Ana R. Correia, Shane Chen, Saroj G. Regmi, Taylor A. Stevens, Claudia A. Jette, Mary Dasso, Alina Patke, Alexander F. Palazzo, Anthony A. Kossiakoff and André Hoelz, 10 June 2022, Science. DOI: 10.1126/science.abm9129 “Architecture of the linker-scaffold in the nuclear pore” by Stefan Petrovic, Dipanjan Samanta, Thibaud Perriches, Christopher J. Bley, Karsten Thierbach, Bonnie Brown, Si Nie, George W. Mobbs, Taylor A. Stevens, Xiaoyu Liu, Giovani Pinton Tomaleri, Lucas Schaus and André Hoelz, 10 June 2022, Science. DOI: 10.1126/science.abm9798 Additional co-authors of the paper, “Architecture of the cytoplasmic face of the nuclear pore,” are Anna T. Gres; now of Worldwide Clinical Trials; Xiaoyu Liu, now of UCLA; Sho Harvey, a former grad student in Hoelz’s lab; Ferdinand M. Huber, now of Odyssey Therapeutics; Daniel H. Lin, now of the Whitehead Institute for Biomedical Research; Bonnie Brown, a former research technician in Hoelz’s lab; Aaron W. Tang, a former research technician in Hoelz’s lab; Emily J. Rundlet, now of St. Jude Children’s Research Hospital and Weill Cornell Medicine; Ana R. Correia, now of Amgen; Taylor A. Stevens, graduate student in biochemistry and molecular biophysics; Claudia A. Jette, graduate student in biochemistry and molecular biophysics; Alina Patke, research assistant professor of biology; Somnath Mukherjee and Anthony A. Kossiakoff of the University of Chicago; Shane Chen, Saroj G. Regmi, and Mary Dasso of the National Institute of Child Health and Human Development; and Alexander F. Palazzo of the University of Toronto. Additional co-authors of the paper, “Architecture of the linker-scaffold in the nuclear pore,” are Dipanjan Samanta, postdoctoral scholar fellowship trainee in chemical engineering; Thibaud Perriches, now of Care Partners; Christopher J. Bley; Karsten Thierbach; now of Odyssey Therapeutics; Bonnie Brown, Si Nie, George W. Mobbs, Taylor A. Stevens, Xiaoyu Liu, now of UCLA; Giovani Pinton Tomaleri, graduate student in biochemistry and molecular biophysics; and Lucas Schaus, graduate student in biochemistry and molecular biophysics. Funding for the research was provided by the National Institutes of Health, the Howard Hughes Medical Institute, and the Heritage Medical Research Institute.
Sea otters swim together in the Pacific Ocean. A deadly, newly detected strain of the parasite Toxoplasma gondii is threatening sea otters, and potentially other species. Credit: Laird Henkel, CDFW A Rare Type of Toxoplasma Infection Poses a Danger to Marine Wildlife According to a study by the California Department of Fish and Wildlife and the University of California, Davis, four sea otters that washed ashore in California died from a highly uncommon and severe form of toxoplasmosis. The disease was caused by the microscopic parasite Toxoplasma gondii. Scientists are warning that this rare strain, which has not been previously reported in aquatic animals, could pose a health threat to other marine wildlife and humans. The preliminary findings, published in the journal Frontiers in Marine Science, note that toxoplasmosis is a widespread occurrence in sea otters and can be deadly. This unusual strain of the disease appears to be particularly virulent and capable of quickly causing the death of healthy adult sea otters. The rare strain of Toxoplasma hasn’t been detected on the California coast before so is likely to be a recent arrival. Scientists are concerned that if it contaminates the environment and the marine food chain, it could pose a public health risk. At present, no infections with the strain have been reported in humans. “Because this parasite can infect humans and other animals, we want others to be aware of our findings, quickly recognize cases if they encounter them, and take precautions to prevent infection,” said corresponding author Melissa Miller of the California Department of Fish and Wildlife. “We encourage others to take extra precautions if they observe inflamed systemic fat deposits in sea otters or other marine wildlife.” A Common Parasite, a Rare Outcome Toxoplasma gondii is a common parasite hosted by wild and domestic cats and shed in their feces. Although healthy humans rarely experience symptoms, toxoplasmosis can cause miscarriages and neurological diseases. Sea otters are especially vulnerable to Toxoplasma infection because they live near the shoreline where they may be exposed to the parasite’s eggs in rainwater runoff, and they eat marine invertebrates that can concentrate the parasites. The four sea otters described in this study were stranded between 2020 and 2022. All had severe inflammation of their body fat — a condition called steatitis. Severe steatitis is a very unusual finding in sea otters with toxoplasmosis. “The appearance of this lethal type of Toxoplasma in coastal California is concerning for two main reasons: First, because of potential population health impacts on a threatened species, and second, because this parasite could also affect the health of other animals that are susceptible to Toxoplasma infection,” said study co-author Devinn Sinnott of the UC Davis School of Veterinary Medicine. Microscopic examination of tissues confirmed Toxoplasma as the cause of death for all four otters. High numbers of the parasites were observed throughout each body except the brain, which is typically one of the major organs affected in sea otters with fatal toxoplasmosis. DNA testing identified a rare strain of Toxoplasma called COUG in all four cases. This strain was first found in 1995 in Canadian mountain lions during surveillance after a nearby outbreak among humans, but the strain of Toxoplasma responsible for the outbreak was never reported. Detection of COUG in sea otters is concerning for the health and recovery of this threatened species. “This was a complete surprise,” said senior author Karen Shapiro of the UC Davis School of Veterinary Medicine. “The COUG genotype has never before been described in sea otters, nor anywhere in the California coastal environment or in any other aquatic mammal or bird.” Sea Otters Under Threat All four otters were stranded during periods of high coastal rainfall, which means they may have been exposed to Toxoplasma eggs via storm runoff. Although three of the otters were stranded near each other, it is unclear whether they were all infected in the same location. How this unusual strain might affect humans or other animals is also unknown. “I have studied Toxoplasma infections in sea otters for 25 years, and I have never seen such severe lesions or high parasite numbers,” Miller said. “We are reporting our preliminary findings to alert others about this concerning condition. Since Toxoplasma can infect any warm-blooded animal, it could also potentially cause disease in animals and humans that share the same environment or food resources, including mussels, clams, oysters, and crabs that are consumed raw or undercooked.” With increased surveillance, the COUG strain may be identified in other animals. “We still have much to learn,” said Sinnott. “Larger-scale studies are needed to understand the potential impact of infection by the COUG Toxoplasma strain on sea otter populations, how geographically dispersed it is, how it is being introduced into the ocean and what other animals might be affected.” Reference: “Newly detected, virulent Toxoplasma gondii COUG strain causing fatal steatitis and toxoplasmosis in southern sea otters (Enhydra lutris nereis)” by Melissa Ann Miller, Cara A. Newberry, Devinn M. Sinnott, Francesca Irene Batac, Katherine Greenwald, Angelina Reed, Colleen Young, Michael D. Harris, Andrea E. Packham and Karen Shapiro, 22 March 2023, Frontiers in Marine Science. DOI: 10.3389/fmars.2023.1116899 The study was funded by the California Sea Otter Fund, the California Department of Fish and Wildlife-Office of Spill Prevention and Response, and the Morris Animal Foundation.
A new study reveals that humanity is at risk of falling into 14 evolutionary dead ends, termed “evolutionary traps,” ranging from climate change to artificial intelligence. The research, focusing on the Anthropocene era, highlights the need for global cooperation and active societal transformation to avoid these traps. Misaligned AI is not the one you should worry most about (yet). For the first time, scientists have used the concept of evolutionary traps on human societies at large. They find that humankind risks getting stuck in 14 evolutionary dead ends, ranging from global climate tipping points to misaligned artificial intelligence, chemical pollution, and accelerating infectious diseases. The Anthropocene Era: Success and Challenges The evolution of humankind has been an extraordinary success story. But the Anthropocene — the proposed geological epoch shaped by us humans — is showing more and more cracks. Multiple global crises, such as the COVID-19 pandemic, climate change, food insecurity, financial crises, and conflicts have started to occur simultaneously in something that scientists refer to as a polycrisis. (a) System dynamics associated with three major groups of Anthropocene traps, global traps, technology traps andstructural traps (including temporal and connectivity traps). Two reinforcing feedback loops are indicated with R and interactions between dynamics across groups of traps are indicated with colored superscript letters (color of causal node) and stippled lined arrows.(b) A heatmap of the interactions between outcomes of the 14 proposed Anthropocene traps.Credit: Philosophical Transactions of the Royal Society B Human Creativity and Unintended Consequences “Humans are incredibly creative as a species. We are able to innovate and adapt to many circumstances and can cooperate on surprisingly large scales. But these capabilities turn out to have unintentional consequences. Simply speaking, you could say that the human species has been too successful and, in some ways, too smart for its own future good,” says Peter Søgaard Jørgensen, researcher at the Stockholm Resilience Centre at Stockholm University and at the Royal Swedish Academy of Sciences’ Global Economic Dynamics and the Biosphere program and Anthropocene laboratory. Peter Søgaard Jørgensen is lead author of the study. He isa researcher at the Stockholm Resilience Centre at Stockholm University and at the Royal Swedish Academy of Sciences’ Global Economic Dynamics and the Biosphere programme and Anthropocene laboratory.Credit: Stockholm Resilience Centre A Landmark Study on Evolutionary Traps He is the lead author of a new landmark study published today as part of a larger assessment in the journal Philosophical Transactions of the Royal Society B. The assessment gathers insights from a wide range of different scientific disciplines across the natural and social sciences and humanities, to understand how the Anthropocene evolved and how global sustainability can continue to evolve in the future. Identifying and Understanding Evolutionary Traps The new study shows how humanity could get stuck in “evolutionary traps” — dead ends that occur from initially successful innovations. In a first scoping effort, they identify 14 of these, including the simplification of agriculture, economic growth that does not deliver benefits for humans or the environment, the instability of global cooperation, climate tipping points, and artificial intelligence (for a full list of traps see table further down). Evolutionary Traps in the Animal World and Human Societies “Evolutionary traps are a well-known concept in the animal world. Just like many insects are attracted by light, an evolutionary reflex that can get them killed in the modern world, humankind is at risk of responding to new phenomena in harmful ways,” explains Peter Søgaard Jørgensen. The simplification of agricultural systems is an example of such a trap. Relying on a few highly productive crops such as wheat, rice, maize, and soya, has meant that calories produced have skyrocketed over the past century. But it also meant that the food system has become very vulnerable to environmental change, such as weather extremes, or new diseases. The Severity and Interconnectivity of Traps Of the 14 evolutionary traps, 12 are in an advanced state, meaning that humankind is on the verge of getting stuck to a degree where it becomes very difficult to get out. What’s more, societies are continuing to move in the wrong direction in 10 of these 14. Alarmingly, these evolutionary traps tend to reinforce each other. If societies get stuck in one dead end, they are more likely to get stuck in others as well. The two dead ends that currently are less advanced are the autonomy of technology – AI and robotics – and a loss of social capital through digitalization. Lan Wang Erlandsson, is a co-author and researcher at the the Stockholm Resilience Centre at Stockholm University and the Royal Swedish Academy of Sciences’ Anthropocene laboratory. Credit: Stockholm Resilience Centre The new assessment also looks into why societies struggle so hard to move out of these traps. Global Challenges and the Need for Collaboration “The evolutionary forces that created the Anthropocene do not work well at the global level. In today’s global systems, social and environmental problems grow in places that seem distant to the societies that could prevent them. Also, addressing them often requires global collaboration on a scale that many evolutionary forces often do not align well with,” says co-author Lan Wang-Erlandsson, researcher at the Stockholm Resilience Centre at Stockholm University and the Royal Swedish Academy of Sciences’ Anthropocene laboratory. A Call to Action for Humanity This does not mean that humanity is doomed to fail, argue the researchers. But we must start to transform our societies actively. So far, the Anthropocene has to a large extent been an unconscious byproduct of other evolutionary processes. “It’s time for humans to become aware of the new reality and to collectively move where we want to as a species. We have the capability to do that and are already seeing signs of such movements. Our creativity, and our power to innovate and collaborate equip us with the perfect tools to actively design our future. We can break out of dead ends and business-as-usual, but for that, we must nurture the capacity for collective human agency and design settings where it can flourish,” explains Peter Søgaard Jørgensen. He continues: “A very simple thing that everybody can do is to engage more in nature and society while also learning about both the positive and negative global consequences of our own local actions. There’s nothing better than exposing yourself to what needs protecting.” Reference: “Evolution of the polycrisis: Anthropocene traps that challenge global sustainability” by Peter Søgaard Jørgensen, Raf E. V. Jansen, Daniel I. Avila Ortega, Lan Wang-Erlandsson, Jonathan F. Donges, Henrik Österblom, Per Olsson, Magnus Nyström, Steven J. Lade, Thomas Hahn, Carl Folke, Garry D. Peterson and Anne-Sophie Crépin, 1 January 2024, Philosophical Transactions of the Royal Society B. DOI: 10.1098/rstb.2022.0261
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