热带海洋学报
熱帶海洋學報
열대해양학보
JOURNAL OF TROPICAL OCEANOGRAPHY
2014年
6期
41-47
,共7页
海水酸化%造礁珊瑚%光谱特性
海水痠化%造礁珊瑚%光譜特性
해수산화%조초산호%광보특성
ocean acidification%reef-building coral%spectral feature
海水酸化造成全球珊瑚礁严重退化,应用卫星遥感手段可以快速地对珊瑚礁进行监测。在野外做酸度对比实验具有条件不易控制、周期长等局限性。文章提出一种室内测量珊瑚光谱的方法,通过比较不同酸度梯度下珊瑚光谱的变化,为研究海水酸化对珊瑚的影响提供了一种新的思路。试验采用7.6、7.9和8.1的酸度梯度,结果表明:在pH为8.1和7.9环境条件下,珊瑚的光谱趋势大体一致,总体上珊瑚光谱波峰出现了向长波方向的红移。但是在 pH 为7.6的条件下,珊瑚的光谱在650~700nm之间出现一个反常的吸收谷,这是由于pH 7.6的酸度条件适宜一些藻类生长,藻类附着在珊瑚表面,从而影响了其光谱特性。
海水痠化造成全毬珊瑚礁嚴重退化,應用衛星遙感手段可以快速地對珊瑚礁進行鑑測。在野外做痠度對比實驗具有條件不易控製、週期長等跼限性。文章提齣一種室內測量珊瑚光譜的方法,通過比較不同痠度梯度下珊瑚光譜的變化,為研究海水痠化對珊瑚的影響提供瞭一種新的思路。試驗採用7.6、7.9和8.1的痠度梯度,結果錶明:在pH為8.1和7.9環境條件下,珊瑚的光譜趨勢大體一緻,總體上珊瑚光譜波峰齣現瞭嚮長波方嚮的紅移。但是在 pH 為7.6的條件下,珊瑚的光譜在650~700nm之間齣現一箇反常的吸收穀,這是由于pH 7.6的痠度條件適宜一些藻類生長,藻類附著在珊瑚錶麵,從而影響瞭其光譜特性。
해수산화조성전구산호초엄중퇴화,응용위성요감수단가이쾌속지대산호초진행감측。재야외주산도대비실험구유조건불역공제、주기장등국한성。문장제출일충실내측량산호광보적방법,통과비교불동산도제도하산호광보적변화,위연구해수산화대산호적영향제공료일충신적사로。시험채용7.6、7.9화8.1적산도제도,결과표명:재pH위8.1화7.9배경조건하,산호적광보추세대체일치,총체상산호광보파봉출현료향장파방향적홍이。단시재 pH 위7.6적조건하,산호적광보재650~700nm지간출현일개반상적흡수곡,저시유우pH 7.6적산도조건괄의일사조류생장,조류부착재산호표면,종이영향료기광보특성。
The global coral reefs are severely degraded by ocean acidification in recent years and satellite remote sensing can monitor coral reefs’ degradation timely. Due to the limitation of conducting acidification comparative experiments in the field, this paper proposes a method of measuring coral reef spectrum in the laboratory, which provides a new way for analyzing the influence of acidification on coral reefs by comparing the coral spectrum under different pH conditions. The experiments adopt three different acidities of 7.6, 7.9 and 8.1. And the results show the spectra of coral reefs have similar spectral shapes in general when the pH values are 8.1 and 7.9. When the pH is 7.9, the coral spectrum peak appears to move into the direction of long a wavelength. But when the pH is 7.6, there is an abnormal absorption valley between 650~700 nm in the coral spectrum, caused by the absorption of some algae. The results show that pH of 7.6 is a suitable acidity for the growth of some algae that can attach to the surface of coral reefs and affect the spectral properties of coral reefs.