海南师范大学学报:自然科学版
海南師範大學學報:自然科學版
해남사범대학학보:자연과학판
Journal of Hainan Normal University:Natural Science
2012年
2期
221-226,236
,共7页
祝淑雅%陈斐然%叶桂萍%胡凡根%张辉%赵倩%靳建辉
祝淑雅%陳斐然%葉桂萍%鬍凡根%張輝%趙倩%靳建輝
축숙아%진비연%협계평%호범근%장휘%조천%근건휘
福州马堡%晚更新世%地球化学元素%变化规律%气候变化
福州馬堡%晚更新世%地毬化學元素%變化規律%氣候變化
복주마보%만경신세%지구화학원소%변화규률%기후변화
Mabao in Fuzhou%late Pleistocene%geochemical element%rule of change%climate change
在光释光测年基础上,研究了福州盆地马保(MB)红土剖面的元素组成及其比值变化特点.结果表明:主元素氧化物以SiO2、Al2O3和Fe2O3为主,MgO、Na2O、CaO、K2O含量较低,硅铝率1.81-2.42(平均值为2.00),硅铝铁率1.30-1.87(平均值为1.49),CIA值88.63—95.98(平均值为93.71),Ba值0.07-0.16(平均值为0.10),元素组合及其比值符合亚热带湿热环境下的脱硅富铝的基本成土过程.MB红土的微量元素富集程度较高,相对于上陆壳(UCC)平均组成富V、Cu、Zn、Rb、Co,贫Sr、Ba、Ni、Zr.MB剖面红土形成于晚更新世中期,就微量元素与气候变化的关系而言,Cu、Zn、C0、Sr等化学性质较稳定的元素其高值段大体上对应区域化学风化作用增强,红土发育程度加强,气候暖湿;其低值段对应区域生物化学风化作用减弱,红土发育程度减弱,气候干凉.随着风化强度的增强,Rb/Sr比值增大.元素含量及其比值呈现峰谷旋回变化,指示了晚更新世中晚期以来区域气候以温干一温湿变化为主,并伴随着小尺度的旋回变化,气候总体波动较大.MB剖面地球化学元素记录的区域气候变化过程既是对全球气候变化的响应,也表现出亚热带季风区红土沉积风化的特殊性.
在光釋光測年基礎上,研究瞭福州盆地馬保(MB)紅土剖麵的元素組成及其比值變化特點.結果錶明:主元素氧化物以SiO2、Al2O3和Fe2O3為主,MgO、Na2O、CaO、K2O含量較低,硅鋁率1.81-2.42(平均值為2.00),硅鋁鐵率1.30-1.87(平均值為1.49),CIA值88.63—95.98(平均值為93.71),Ba值0.07-0.16(平均值為0.10),元素組閤及其比值符閤亞熱帶濕熱環境下的脫硅富鋁的基本成土過程.MB紅土的微量元素富集程度較高,相對于上陸殼(UCC)平均組成富V、Cu、Zn、Rb、Co,貧Sr、Ba、Ni、Zr.MB剖麵紅土形成于晚更新世中期,就微量元素與氣候變化的關繫而言,Cu、Zn、C0、Sr等化學性質較穩定的元素其高值段大體上對應區域化學風化作用增彊,紅土髮育程度加彊,氣候暖濕;其低值段對應區域生物化學風化作用減弱,紅土髮育程度減弱,氣候榦涼.隨著風化彊度的增彊,Rb/Sr比值增大.元素含量及其比值呈現峰穀鏇迴變化,指示瞭晚更新世中晚期以來區域氣候以溫榦一溫濕變化為主,併伴隨著小呎度的鏇迴變化,氣候總體波動較大.MB剖麵地毬化學元素記錄的區域氣候變化過程既是對全毬氣候變化的響應,也錶現齣亞熱帶季風區紅土沉積風化的特殊性.
재광석광측년기출상,연구료복주분지마보(MB)홍토부면적원소조성급기비치변화특점.결과표명:주원소양화물이SiO2、Al2O3화Fe2O3위주,MgO、Na2O、CaO、K2O함량교저,규려솔1.81-2.42(평균치위2.00),규려철솔1.30-1.87(평균치위1.49),CIA치88.63—95.98(평균치위93.71),Ba치0.07-0.16(평균치위0.10),원소조합급기비치부합아열대습열배경하적탈규부려적기본성토과정.MB홍토적미량원소부집정도교고,상대우상륙각(UCC)평균조성부V、Cu、Zn、Rb、Co,빈Sr、Ba、Ni、Zr.MB부면홍토형성우만경신세중기,취미량원소여기후변화적관계이언,Cu、Zn、C0、Sr등화학성질교은정적원소기고치단대체상대응구역화학풍화작용증강,홍토발육정도가강,기후난습;기저치단대응구역생물화학풍화작용감약,홍토발육정도감약,기후간량.수착풍화강도적증강,Rb/Sr비치증대.원소함량급기비치정현봉곡선회변화,지시료만경신세중만기이래구역기후이온간일온습변화위주,병반수착소척도적선회변화,기후총체파동교대.MB부면지구화학원소기록적구역기후변화과정기시대전구기후변화적향응,야표현출아열대계풍구홍토침적풍화적특수성.
This paper researches the ratio of the elements and its characteristics of the changes at Maobao profile in Fuzhou on the basis of ESR dating. The results show that: The primary oxides of major elements are mainly SiO2, Al2O3 and Fe2O3, whereas the MgO, Na20, CaO and K20 contents are low. SiO2/Al2O3 ratio ranges from 1.81 to 2.42 (average of 2.00), SiO2/(AhO3+Fe2O3) ratio ranges from 1.30 to 1.87 (average of 1.49), CIA values range from 88.63 to 95.98 (average of 93.71), Ba values range from 0.07 to 0.16 (average of 0.10), Therefore, the red earth underwent wet-hot weathering and desilicification-allitization process. Meanwhile, there is a high enrichment degree of the trace elements, the upper continental crust-normalized value for trace elements displays enrichment of V, Cu, Zn, Rb and Co and eluviation of Sr, Ba, Ni and Zr. The red earth of Mabao profile forms in the middle of late Pleistocene. For the relationship between trace elements and climate change, the elements with more stable chemical properties, such as Cu, Zn, Co, Sr etc, their high value in general corresponds to the strength of chemical weathering, as well as the development degree of the red earth, moreover, it means a warm and wet climate, on the contrary, the low value corresponds to the weaken chemical weathering, it means a cold and dry climate. Along with the increase of the weathering intensity, Rb/Sr ratio increased. The spin- ning back change indicated by the contain and the ratio of the elements shows that the major change of regional climate is converting from the weather which is warm and dry to the weather which is warm and wet, with the small scale of the spinning back change since the Middle-late of late pleistocene. The fluctuation of the climate change is obvious totally. The climate changes recorded by the content and their ratio of the geochemical element at Mabao profile is the specific response to the global climatic changes, and meanwhile it displays special zonality at the subtropical monsoon region.
