今夜是平安夜
願~~所有朋友們~~
日日平安~~
時時平安~~~~
聖誕節
是個分享愛的節日
有多久沒慰問
關懷你的朋友了
打個電話吧
我愛你們~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
今晚有個好眠
讓這首我喜歡
巴哈的~~
[耶穌~~世人仰望之喜悅
Jesu, Joy of Man's Desiring]
伴你入睡吧~~~
聖誕節的由來~~~~~~~~~~~
(一)在宗教上
過聖誕節已經成為世界各地的風俗習慣,可是你可曾探究過這日子的由來?你知道為什麼要慶祝這日子嗎?
聖誕節的由來可追溯到2001年前耶穌的誕生。
耶穌是那一年誕生的呢?
確實年份雖然已無從考察,但大多數考古學家都認為應該是在劃分世紀的那一年(即公元前一年),只不過正確的出生日期無法確定。因此早期的基督教徒便以羅馬帝國時期的密司拉教派,在每年一二月二十五日紀念太陽神誕辰的第一天定為【聖誕節】。
所以聖誕節在宗教上是基督教徒紀念耶誕生的一個重要節日。
根據聖經的記載,耶穌誕生在猶太的一座小城--伯利恆。馬利亞,也就是耶穌的母親,因聖靈的感動而懷孕,在夢中天使加百列向她顯現,告訴她,她將要生下神的兒子,他要被稱為耶穌。就在與丈夫約瑟返往家鄉時,所有的旅店客滿,因此馬利亞被迫在馬槽生下耶穌。遙遠的東方有三博士得到神的啟示,追隨天上的一顆明亮星星找到了耶穌,俯伏拜他,揭開寶盒,拿出黃金、乳香、沒藥為禮物獻給他。在伯特利野地的牧差人也聽到天使的聲音從天上發出,向他們款耶穌降生的佳音。
(二)在民俗上
那可就要追溯到德國了。在德國,聖誕節前的四個星期天分別秩為第一、二、三、四個待降節(advent)。在第一個待降節左右就開始了耶誕市集,而第一個待降節當天,家家戶戶都會將待降花圈(adventskranz)中第一根蠟燭點燃,之後每個待降節分吸再依序點燃待降花圈的其他蠟燭,等第四根蠟燭被點燃的時候,就代表耶誕節要來啦!
這段期間德國家庭同時開始準備各項採買、裝飾,大掃除的工作,這像不像我們的臘月呢?而小朋友也會得到一份「耶誕日曆」(ADVENTSKALENDER),這是一個紙盒,上面會有1到24個小「門」,每個小門後面都有一樣小玩具或糖果之類的東西。就像我們小時候在住家附的雜貨店「抽」東西一樣,小朋友從十二月一號開始每天可以開一個門,剛好開到十二月二十四的耶誕節前夕。不過頑皮的小朋友通常迫不及待地在第一天就將它全部打開了!
聖誕老公公的由來
聖誕節是令人雀躍期待的日子,尤其是小孩子。相信大家對聖誕老公公的事都耳熟能詳吧?從前有一個老人,名叫尼古拉斯,他一生最愛幫助貧窮的人家。其中有一次他幫助三個貧窮的少送她們三袋金子以逃過被賣的不幸。當尼古拉斯偷偷把其中一袋金子送給其中一名女子時,他把金子從其中一個窗戶扔進去,恰好掉進景在壁上的一長襪中。於是,將禮放在聖誕襪子的送禮方法家挨戶地去要糖果喲!
據說平安夜的晚上,聖誕節老公公會駕著馴鹿雪橇滿載著禮物準備送點這一年來表現很好的小朋友,他會悄悄地從煙囪爬進屋內,禮物塞在掛在床頭的襪子裡。所以孩子總會把一條條色彩繽紛的襪子掛在床頭,並在襪子旁邊放杯熱牛奶給勞苦功高的聖誕老人解渴,並送份大禮給自己。
隔天一每個小朋友都迫不及待地打開禮,想知道自己得到什麼獎勵。
到了1822年,一位荷蘭傳教士把這位偉大慈善家的故事傳到美國之後,美國商人更以特殊的行銷手法,每年利用這個節日大張旗鼓地宣傳廣告,大賺一筆,在亞洲的日本及其他各國也群起效尤。因此裝扮聖誕老人來慶祝聖誕節的風俗習慣也就漸漸地流行到世界各國了。
聖誕樹的由來
1.據說大約在十六世紀,德國人最先把長青的松柏枝拿到屋中去擺設,後來,德國傳教士馬丁路德把燭放在樹林中的樅樹枝上,然後點燃,使它看起來像是引導人們到伯利恆的星光,如同二千年前的東方三博士依照天上的星星找到耶穌一般。今日,人們已經改用小燈泡代替蠟燭。
2.傳說在很久以前,有一位農人,在聖誕節那天遇到一位窮苦的小孩,他熱情地接待了孩子,這個小孩臨走時折下根松枝插在地上,松枝立即變成一棵樹,上面掛滿了禮物,用來答謝農人的好意。
然而聖誕樹真正出現在聖誕節,首先見於德國,之後又傳入歐洲和美國,成為聖誕節不可或缺的裝飾物。他們通常用五光十色的彩燈、蠟、禮物或天使來裝聖誕樹,尤其住在美國西北部的人們,因為當地豐富的森林資源,他們會全家人一起去挑選一棵真正的樹做為聖誕樹。聖誕樹的種類繁多,有天然松柏聖誕樹、也有人造聖誕樹及白色聖誕樹。每棵聖誕樹上都掛滿琳瑯滿目的裝飾品,但每棵樹的頂端必定有一棵特大的星星,像徵著那顆引導東方三博士找到耶穌的星星。而且在傳統習俗上,只有家庭的一家之主才可以把這顆希望之星掛上,旁人是不可以越俎代庖的。
平安夜的由來
聖誕節前夕也就是俗說的平安夜,當晚,全家人會團聚在客廳中,圍繞在聖誕樹旁唱聖誕歌曲,互相交換禮物,彼此分享一年來生活中的喜怒哀樂,表達內心的祝福及愛。在這天晚上都會看到一群可愛的小男生或小女生,手拿詩歌彈著吉他,一家一家的唱著詩歌報佳音。到底佳音隊這種節日活動是怎麼來的呢?
耶穌誕生的那一晚,一在曠野看守羊群的牧羊人,突然聽見有聲音自天上傳來,向他們報耶穌降生的好消息。根據聖經記載,耶穌來是要作世人的王,因此天使便透過這些牧羊人把消息傳給更多的人知道。
後來人們就效仿天使,在平安夜的晚上到處報人傳講耶穌降生的消息,直到今日,報佳音已經變成聖誕節不可缺少的一個節目。
通常佳音隊是由大約二十名青年人,加上一備裝扮成天使的小女孩和一位聖誕老人組成。在平安夜晚上大約是九點過後,開始一家一家的去報佳音。每當佳音隊去到一個家庭時,先會唱幾首大家都熟悉的聖誕歌曲,然後再由小女孩念出聖經的話語讓該戶人家知道今夜是耶穌降生的日子,過後大家一起禱告再唱一兩首詩歌,再由慷慨大方的聖誕老人派送聖誕禮物給那個家庭中的小廳子,整個報佳音的過程就完成了!
整個報佳音的活動大約要持續到第二天凌晨四點左右才結束。
聖誕歌曲平安夜的由來
「平安夜,聖善夜,萬暗中,光華射,照著聖母也照著聖嬰,多少慈祥也多少天真,靜享天賜安眠,青享天賜安眠。」這一首耳熟能詳、膾炙人口的聖誕名曲,出自奧國阿二卑斯山的一個小村莊提羅。
1818年聖誕節的前夕,村裡的牧師約瑟.梅爾望著教堂裡破舊的風琴而煩,因為幾個鍵盤都已經彈不出聲音來了,他不知該如何迎接即將來臨的聖誕節聚會,在訪村人的歸途中,爾牧師經過村郊的小山坡,當他從一上俯視幽靜的小村,幾盞燈光點綴著幽暗的黑夜,在皚皚雪地裡更顯得寂靜。眼前的世界使他德彿重回2001年前耶穌在伯利恆誕生的夜晚,那般地祥和與寧靜,充滿非神聖與平安,此時突然靈光一閃,他急忙飛奔回家,把蘊藏在腦海中的詩景寫成了「平安夜」的歌詞。翌日早晨,梅爾牧師去找好友佛蘭茲.古魯伯,把詩交給他。
古魯伯是一位琴師,當朗頌這首詩時,也產生彷彿置身於耶穌降生的夜晚一般,因此他興地立即做了一支曲子來配詞。他們兩人開始快樂地練唱,準備晚上聖誕聚會時可以表演。在平安夜的晚上,
全村的男女老少,都聚集在小教堂裡,聚會中爾牧師高唱了這首新曲子,當晚雖然沒有風琴的伴奏,但是簡單美妙的詞句和棌和的旋律卻感動了所有在場的聽眾,而流傳至今。
聖誕節的意義
聖誕節對傳統的基督徒來說,是在慶祝耶穌的誕生。他們會在聖誕節的早上去做聖誕禮拜,以紀念耶穌和發揚基督的精神。不過一般的人已把它看成一種大眾化的民俗活動,是一個大家分享彼此對於家人、朋友甚至於他人的愛與關懷的日子。它也象徵著人們對於仁愛、喜樂、和平、忍耐、感恩、銀善、信實、溫柔以及節制的期望。印象中,聖誕節似乎應該在皚皚白雪中度過的節日,但是有趣的是,對住在南半球的人門,例甘澳洲或南美洲的人們而言,聖誕節可是夏日的節慶呦!
平安夜,聖善夜,萬暗中,光華射,照著聖母也照著聖嬰,多少慈祥也多少天真,靜享天賜安眠,靜享天賜安眠。
聖誕節快樂!! [版主回覆2008/12/24 23:47]快樂~~~ 你的禮物是~~第一名耶~~~~~~~~~~~
被搶走了! [版主回覆2008/12/24 23:48]哇~~別哭~~~ 還有第二名啊~~~~~~~~~~
我還可以搶到第三耶!!!聖誕快樂....禮物別忘記送來噢!!! [版主回覆2008/12/24 23:49]要~~~~鼻涕還是痰口味的餛飩阿~~~~ 好髒喔~~~~~~~~~~~~~~~~~~~~~~~
聖誕節快樂 [版主回覆2008/12/24 23:50]快樂~~~ 阿~~禮物咧~~~~
一切都是不小心... 晚上和同學去南方公園吃飯時熊熊看到一台消防車呼嘯而過~還放超大聲的聖誕節歌曲... 原來是聖誕夜~消防車也來 " 逗熱鬧 " ... 路上還看到騎重機的聖誕老公公吔~好與奮喔... 最重要的是還是要祝阿阿叫丫伯 " 早日康復 " ... 卡日睏A卡有眠~如此才有抵抗力喔... [版主回覆2008/12/24 23:57]疑~~~那個騎重機的聖誕老人~~~一定是學我的~~~
禮物...來搶第一 [版主回覆2008/12/24 23:58]你最近都搶不到說~~~
對啊! 我姊家! [版主回覆2008/12/25 02:01]快回來啦~~~
那台消防局119的車我也有看到,將近10點停在成大附近香格里拉飯店,今年景氣特別冷,突然看到這麼應景的遊街,真的好興奮! 阿阿叫好點了嗎?我會為你禱告,願主賜你平安.喜樂! 憶起學生時代最愛報佳音了! [版主回覆2008/12/25 18:25]好了阿~~~~ 有你的祈禱就很快好了耶~~~~
聖誕快樂 [版主回覆2008/12/25 18:17]快樂~~~今天又去瘋了吧~~~
好了沒阿????快一點.....PO文 [版主回覆2008/12/25 18:26]等一下啦~~~~~~~~~~~
哇來也, 聖誕快樂.................^O^ [版主回覆2008/12/25 18:18]明年也要多吃點喔~~~
新的一年有什麼新的計畫沒有啊! [版主回覆2008/12/25 18:19]要多吃好吃的阿~~~~
還沒祝你聖誕快樂 ㄟ ㄚ我的禮物ㄋㄟ 今天這篇我只看到蛋糕~~~~~~~~其他的我又聽不到~~~~氣 [版主回覆2008/12/25 18:20]送你一年份的啾~~~~~啦~~~~ 快去修一修啦~~~~~~~~~~~~~~~~
一夜干是什麼丫?? [版主回覆2008/12/25 21:42]http://tw.myblog.yahoo.com/rr9-rr9/article?mid=192&prev=251&l=f&fid=16
禮物啦~ 當老大的你~怎ㄇ沒有分送禮物給我ㄇ這一群小朋友啊~(年紀比你小--朋友) [版主回覆2008/12/25 18:16]我只有鼻涕口味及痰口味的餛飩~~~你要哪種????
我要趴趴熊兩隻 [版主回覆2008/12/25 18:21]現在不流行了啦~~~~~~~~~
聖誕節快樂 [版主回覆2008/12/25 21:43]好慢喔~~~~~~~~~~
我要一夜干 [版主回覆2008/12/25 18:22]吵死啦~~~~~就說還沒做阿~~~~~~~~~~~
看到一夜干就想到,你也欠我一夜干 [版主回覆2008/12/25 18:23]我有丟給你~~自己沒去檢的~~~~~
我也要一夜干.....hahaha i am in jp ...... so ..... 我要禮物 噢!!! .... [版主回覆2008/12/25 18:24]真好命~~阿~~一夜干~~日本就一堆了阿~~~ 快回來啦~~~~~~‵要帶禮物喔~~~~~~~~~~~~~~
平安夜已過 祝你耶誕快樂囉~ [版主回覆2008/12/25 22:36]同樣喔~~
叫妳來我家啦 氣 [版主回覆2008/12/25 00:25]搶到了啦~~~~
你有没有好一點啊,早一點休息,你就是作息不正常,免疫力下降啦, 這樣不好哦,祝你早日康復啊~ 晚安~~ [版主回覆2008/12/25 00:28]我中午看完醫生~~睡到剛剛~~~現在精神超好~~~
來遲了~聖誕快樂~!你的燈需要油了,快求主賜下吧!阿們~! [版主回覆2008/12/25 00:57]蝦米燈???????
今晚在屏基等候門診................... 等了一個多小時才看到我家傅乙倫.............. 哇咧~ 沒有聖誕老公公、沒有聖誕禮物.................. 去買水果茶的時候看到兩個姊姊頭上戴著麋鹿角角的頭飾.............. >"<............................ [版主回覆2008/12/25 01:00]痾~~~他也生病喔~~~ 阿~~你在屏東喔~~~~~~~~~~
阿們..........如心所願! 哈利路亞........讚美主! 以馬內利..............願主保護你! [版主回覆2008/12/25 01:01]喔~~~~~也祝福你~~~~~~~~~~~~~~
我很喜歡一段話上主在天享榮華 主愛的人在世享平安新的一年來了 祝你平安 健康 享受更多美食 [版主回覆2009/01/03 14:20]你一定有恩惠慈愛隨著你~~~~~~~~~
洪凱駖藥師~ Solving a long-standing mystery about the desert’s rock art canvas Petroglyphs are carved in a material called rock varnish, the origins of which have been debated for years. Now, scientists argue it’s the result of bacteria and an adaptation that protects them from the desert sun’s harsh rays. By Nathan Collins 5923141600_1bc3f25867_k.jpg Rock art featuring human and animal forms and handprints Petroglyphs at Mesa Verde National Park, Colorado (Christine Fry & Peter Russo) Wander around a desert most anywhere in the world, and eventually you’ll notice dark-stained rocks, especially where the sun shines most brightly and water trickles down or dew gathers. In some spots, if you’re lucky, you might stumble upon ancient art – petroglyphs – carved into the stain. For years, however, researchers have understood more about the petroglyphs than the mysterious dark stain, called rock varnish, in which they were drawn. In particular, science has yet to come to a conclusion about where rock varnish, which is unusually rich in manganese, comes from. Now, scientists at the California Institute of Technology, the Department of Energy’s SLAC National Accelerator Laboratory and elsewhere think they have an answer. According to a recent paper in Proceedings of the National Academy of Sciences, rock varnish is left behind by microbial communities that use manganese to defend against the punishing desert sun. The mystery of rock varnish is old, said Usha Lingappa, a graduate student at Caltech and the study’s lead author. “Charles Darwin wrote about it, Alexander von Humboldt wrote about it,” she said, and there is a long-standing debate about whether it has a biological or inorganic origin. But, Lingappa said, she and her colleagues didn’t actually set out to understand where rock varnish comes from. Instead, they were interested in how microbial ecosystems in the desert interact with rock varnish. To do so, they deployed as many techniques as they could come up with: DNA sequencing, mineralogical analyses, electron microscopy, and – aided by Stanford Synchroton Radiation Lightsource (SSRL) scientist Samuel Webb – advanced X-ray spectroscopy methods that could map different kinds of manganese and other elements within samples of rock varnish. “By combining these different perspectives, maybe we could draw a picture of this ecosystem and understand it in new ways,” Lingappa said. “That’s where we started, and then we just stumbled into this hypothesis” for rock varnish formation. Among the team’s key observations was that, while manganese in desert dust is usually in particle form, it was deposited in more continuous layers in varnish, a fact revealed by X-ray spectroscopy methods at SSRL that can tell not only what chemical compounds make up a sample but also how they are distributed, on a microscopic scale, throughout the sample. That same analysis showed that the kinds of manganese compounds in varnish were the result of ongoing chemical cycles, rather than being left out in the sun for millennia. That information, combined with the prevalence of bacteria called Chroococcidiopsis that use manganese to combat the oxidative effects of the harsh desert sun, led Lingappa and her team to conclude that rock varnish was left behind by those bacteria. For his part, Webb said that he always enjoys a manganese project – “I’ve been a mangaphile for a while now” – and that this project arrived at the perfect time, given advances in X-ray spectroscopy at SSRL. Improvements in X-ray beam size allowed the researchers to get a finer-grained picture of rock varnish, he said, and other improvements ensured that they could get a good look at their samples without the risk of damaging them. “We’re always tinkering and fine-tuning things, and I think it was the right time for a project that maybe 5 or 10 years ago wouldn’t really have been feasible.” The research was supported by the National Science Foundation, the National Institutes of Health and the National Aeronautics and Space Administration. SSRL is a DOE Office of Science user facility. Citation: Usha F. Lingappa et al., Proceedings of the National Academy of Sciences, 22 June 2021 (10.1073/pnas.2025188118) For questions or comments, contact the SLAC Office of Communications at communications@slac.stanford.edu. SLAC is a vibrant multiprogram laboratory that explores how the universe works at the biggest, smallest and fastest scales and invents powerful tools used by scientists around the globe. With research spanning particle physics, astrophysics and cosmology, materials, chemistry, bio- and energy sciences and scientific computing, we help solve real-world problems and advance the interests of the nation. SLAC is operated by Stanford University for the U.S. Department of Energy’s Office of Science. The Office of Science is the single largest supporter of basic research in the physical sciences in the United States and is working to address some of the most pressing challenges of our time. X-ray Science X-ray Spectroscopy Stanford Synchrotron Radiation Lightsource (SSRL)