走在汽車革命的路上論文書籍站
Predator: Hunting Gr的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括價格和評價等資訊懶人包
Predator: Hunting Gr的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦LaFosse, Michael G./ Alexander, Richard L.寫的 Origami Endangered Animals: Paper Models of Threatened Wildlife 可以從中找到所需的評價。
國立臺灣大學 基因體與系統生物學學位學程 薛雁冰所指導 李宜芸的 建立蠔菇的遺傳及基因體系統以研究蠔菇毒殺線蟲的分子機制 (2020),提出Predator: Hunting Gr關鍵因素是什麼,來自於蠔菇、正向遺傳篩選、Pleurotus ostreatus。
而第二篇論文國立臺灣海洋大學 水產養殖學系 徐德華所指導 簡宗瑋的 萊式擬烏賊的繁養殖及感官馴養的開發 (2019),提出因為有 萊氏擬烏賊、虎斑烏賊、養殖、認知、感官的重點而找出了 Predator: Hunting Gr的解答。
除了Predator: Hunting Gr,大家也想知道這些:
Origami Endangered Animals: Paper Models of Threatened Wildlife
為了解決Predator: Hunting Gr 的問題,作者LaFosse, Michael G./ Alexander, Richard L. 這樣論述:
"Through the intricate art of origami, LaFosse and Alexander succeed in educating all ages about wildlife conservation and the importance of preserving our Earth's endangered animals." --Jack HannaA portion of the proceeds benefit wildlife conservation. An interactive way to foster appreciation and
understanding of our planet's endangered species Origami Endangered Animals Kit, from master origami artists Michael LaFosse and Richard Alexander, is designed to educate and entertain in equal measure. This origami kit includes everything you need: 48 large sheets of high-quality double-sided fold
ing paper A full-color 64-page instruction bookFree online video demonstrationsEducational notes about endangerment and threatened speciesThe 12 animals featured in this kit range from the diminutive Macaque to the massive Blue Whale, and also include: The Leopard: These big cats are the victims of
shrinking habitats and trophy hunters. Only 12,000 to 14,000 remain in the world.The Rhinoceros: These animals are frequent targets of poachers. There are 28,000 to 30,000 individuals remaining.The Macaque: These clever primates suffer from disease and shrinking habitats as farmlands expand.The G
orilla: These critically endangered primates are being rapidly hunted to extinction.The Sea Turtle: Ungainly on land, these reptiles are victims of beach development, bycatch, poaching, marine debris, and more.The Tiger: A ferocious apex predator, these big cats suffer from shrinking habitats, hu
nting, and poaching. Only 8,000 to 10,000 individuals remain, half of them in captivity.The Elephant: The largest land mammal, these massive herbivores are threatened by habitat loss and poaching.The Great White Shark: These impressive predators are critically endangered due from overfishing, and
slow reproductive maturity. Only around 3,500 individuals remain.The Blue Whale: The largest animal on earth, tipping the scales at over 120 tons These giants were nearly hunted to extinction and are now recovering their numbers, but face many environmental challenges. There are estimated to be 10
,000 to 25,000 individuals remaining in the world.The Emperor Penguin: These majestic flightless birds live exclusively in the southern hemisphere. Not yet endangered, but severely threatened.The Giant Panda: These cuddly bears are threatened by habitat pressure and low birthrates. Only around 1,2
00 remain in the world.The Australian Sea Lion: These mammals spend most of their time in the water and are heavily hunted, their food sources heavily fished out until recently. Fewer than 15,000 individuals remain.These fun-to-fold paper animals are an ideal way to bring natural beauty into your h
ome or office, while also highlighting the plight of endangered wildlife species. Animal figures are the most popular form of origami, and now anyone can use them to learn more about these important species. Michael G. LaFosse decided he would be an origami artist in 1971, after reading (and rerea
ding) a Readers’ Digest article by Leland Stowe, about the amazing folded art of Japanese Master Akira Yoshizawa. An avid teacher, LaFosse co-founded the Origamido Studio, a learning center and design studio dedicated to the art of origami, and the only place in the world specializing in hand paperm
aking for the origami artist. A biologist by training, LaFosse is one of the most celebrated natural history origami artists. He has spent decades studying plants and animals and re-creating them in detailed folded paper projects. He has also created hundreds of designs now seen in exceptional exhib
itions, and published in dozens of books, kits, and videos. Richard L. Alexander met LaFosse in 1988, and together they have produced exhibitions and publications about paper art and origami. Alexander has worked with LaFosse full time since 2003, and since then has made all of the Origamido handmad
e paper. Alexander also teaches and designs origami, while being responsible for photography, videography, commercial projects, and managing the Origamido Studio gallery spaces and exhibitions.
建立蠔菇的遺傳及基因體系統以研究蠔菇毒殺線蟲的分子機制
為了解決Predator: Hunting Gr 的問題,作者李宜芸 這樣論述:
Pleurotus ostreatus又稱做蠔菇、平菇或鮑魚菇屬於食線蟲的擔子菌,這類的真菌在低養分的環境下會分泌毒素使線蟲麻痺。在先前的研究中發現秀麗隱桿線蟲 (Caenorhabditis elegans) [1] 碰到P. ostreatus的菌絲時,毒素會藉由線蟲神經細胞上的感覺纖毛進入線蟲體內,造成線蟲頭部急劇收縮及線蟲咽部肌肉和體壁肌肉鈣離子濃度急劇增加,最後導致細胞壞死。然而關於P. ostreatus如何使線蟲麻痺的分子機制依然未知,因此為了要找出與線蟲麻痺相關的基因,我們透過正向遺傳篩選方法,利用ethyl methanesulfonate (EMS) 與UV產生隨機突變,
篩選出不會使線蟲麻痺的突變株。我們總共篩選約12,000的突變株,其中有23突變株失去殺死線蟲的能力。利用冷凍掃描式電子顯微鏡 (cryo-SEM) 更進一步的觀察發現大部分的突變株都缺少在野生株P. ostreatus上明顯的球形構造,由此可知此構造在麻痺線蟲的過程中扮演著重要的角色,此構造內有可能存在重要的殺線蟲毒素。我們利用全基因定序及遺傳分析縮小突變基因的範圍並找出可能參與麻痺線蟲的相關候選基因。初步的結果指出平均每一個突變株有107個突變在60個基因上,經過遺傳分析篩選後有146個突變,其中17個基因上的突變較為嚴重,如:失去終止碼、獲得終止碼以及架構轉移突變。其中我們關注於TWF1
050突變株上的其中一個基因PC9H_000661含有架構轉移突變,此基因為B型週期素,因此命名為CLB1,我們將此基因剔除,結果發現clb1突變株失去麻痺線蟲的功能,且無法形成球形構造。在未來鑑定毒素的的化學組成是一個重要的方向,我們計畫用此殺線蟲毒素來防治動植物寄生性線蟲。
萊式擬烏賊的繁養殖及感官馴養的開發
為了解決Predator: Hunting Gr 的問題,作者簡宗瑋 這樣論述:
萊氏擬烏賊(Sepioteuthis lessoniana;軟絲)是世界重要的漁業經濟物種,發展人工養殖技術及研究其馴餌條件將能有效降低野外捕撈帶來的族群壓力,也能創造新興養殖市場及提供資源復育。本研究是以紀錄軟絲的生活史及馴養過程,再針對不同階段同時測試軟絲及虎斑烏賊的嗅覺、視覺及聽覺,即釐清主導進食的刺激因素,以利馴餌流程的開發。在視覺測試上,同時使用實體餌料及平板電腦進行感色、感光及餌料型態辨識,軟絲同烏賊在感色能力上看不出喜好及認知,但在感光能力上較烏賊明顯有色階概念,對光影的快速閃動亦較敏感。軟絲對於餌料型態的認知比烏賊來的單純,在只進食過單一種活餌的前提下,對於其他餌料的接受度比
烏賊高。軟絲的嗅覺敏感,在相同型態的餌料中只會選擇進食新鮮餌料,但可藉由訓練來降低嗅覺的影響力。聽覺對於軟絲的攝食影響較低,本實驗並沒有看出明顯的差別,主要還是由視覺引導攝食行為。在軟絲的馴餌過程中,活體餌料種類的增加能大幅縮短馴餌的時間,藉由豐富進食經驗,軟絲的認知能力有所提升,對於未知物體較有嘗試接觸的表現。而軟絲也確實存在著社會學習的現象,在觀看別的軟絲群體進食生餌後,該群體的馴餌過程也會比其他群體順利,活存率亦較高。軟絲的馴化過程可被多個因素左右,本實驗總結出軟絲感官重要性由強至弱為視覺>嗅覺>聽覺,而與烏賊相比,軟絲的反應較為單純,不像烏賊需要更多條件或刺激才能馴化成功。