月最大值 的英文怎麼說
中文拼音 [yuèzuìdàzhí]
月最大值
英文
monthly maximum-
Herbs bourgeoned with a high density and a low coverage in early july. with the coming of rain season, the velocity of growth in herbs enhanced with the higher coverage in august. in september, the growth of herbs stopped and the density and coverage of herbs descended
草本植物在7月初萌發,平均密度大,但植株較小,蓋度也小;隨著降雨量的增加,在8月份一一草本植物的快速生長期,草本植株個體長大,平均蓋度達最大值,但是密度卻有所下降;到了9月中下旬基本成熟並逐漸死亡,蓋度和密度均下降。Based on the analysis of the fishing capture monitoring data, which obtained from 5 deep water drift net fishery resources investigation boats from april 1998 to march 2001, the results indicated that the psenopsis anomala which took accounted for 8. 68 % ~ 27. 16 % of the total catch, was one of the three preponderant species in the northern part of the east china sea and southern part of the yellow sea. ( branchiostegidac ranked first, followed by the psenopsis anomala or argyrosonus altetnate ). the yearly quantity distribution concentrated in summer and autumn, and reached the peak in latter summer to early autumn
摘要根據對5艘深水流網資源信息船1998年8月~ 2001年3月連續漁撈調查資料進行分析研究,結果表明:刺鯧是本海域深水流網漁業的三大優勢種之一(方頭魚占首位,刺鯧和白姑魚年間變動量相互交替) ,占年總漁獲量的8 . 68 % ~ 27 . 16 % ;周年數量分佈集中在夏、秋季,全年數量最高值出現在夏末初秋。The paper concludes that the changing rate of ndvi of rain forest in tropic is the smallest, the changing curve is smooth, while the changing rate of ndvi of the deciduous broad leaf forest in warm - temperate zone is the largest the change of ndvi is the most conspicuous in winter and spring ( especially in april ) while is not conspicuous in summer and autumn by analyzing the change of ndvi along latitude using the ndvi value of different vegetation types along the same longitude. the vegetation index from warm temperate zone to semitropical zone has obvious transition, while other areas have no distinct change by analyzing the change of ndvi from temperate zone to semitropical zone to tropical zone using ndvi averagejn the same time it is concluded that the sink value in the beginning of the year 1995 is from the influence of the monsoon in east of china by analyzing the ndvi curve of several typical needle leaf forests. the relation between ndvi value and temperature is conspicuous while the relation of precipitation is less or not by analyzing the relation between ndvi and temperature and precipitation finally it can get the conclusion that the change of river area is the smallest, the change of sienna area is the greatest by analyzing two phases of tm data in 1987 and 1997 with rs technic
利用從同一經度的不同森林類型ndvi值分析,沿緯度方向ndvi變化可得出, ndvi在冬春季變化最明顯(尤其是在4月份最大) ,而在夏季和秋季變化不明顯。利用ndvi均值進行分析,從暖溫帶到亞熱帶到熱帶的變化情況發現,從暖溫帶到亞熱帶ndvi指數形成明顯的階躍,而其它區域沒有太大的變化,同時對幾種典型的針葉林曲線分析可知其年初的凹值源自於我國東部季風的影響。利用ndvi數據分析其與月均溫度與降水的相關性得出與溫度相關性較為顯著,而與降水相關性不顯著或無相關性。Another maximum of heat loss existing in japan sea is tsushima current area with - 270wm - 2 in december. the seasonal variations of heat flux are similar in japan and east china sea
在日本海區,對馬暖流沿日本群島西海岸在冬季12月也有最大損失值- 270wm ~ ( - 2 ) 。Output flux at po4 - p specification only accounted for 24 % of all phosphorus output in 1998. 3. din budget in jiaozhou bay : seawater - accommodated din in jiaozhou bay is attributable to discharge from the rivers around jiaozhou bay, input from seawater - bottom sediments exchanging, atmospheric deposition, and output to huanghai sea by hydrodynamic process
模型計算結果表明,膠州灣的f比冬季最高,夏季最低,而春秋居中,月平均值在0 . 75一0 . 94之間,年平均值為0 . 80 ,膠州灣在初級生產過程中所需的din大部分是由新生源(外源)提供的。Because manage fixed position, accurate, brand management has distinguishing feature alone, in august 2005, assess of world brand lab " su ning " brand value is amounted to 6. 455 billion ; in september, national statistic bureau announces : su ning electric equipment ranks the 92nd of group of 1000 the biggest companies of chinese ; 11, december, su ning electric equipment parts to pick chinese famous brand 200 mix by force 2005 china appear on the market company competition ability 7 strong
由於經營定位準確、品牌管理獨具特色, 2005年8月,世界品牌實驗室評定「蘇寧」品牌價值達64 . 55億; 9月,國家統計局揭曉:蘇寧電器位居中國1000家最大企業集團的第92位; 11 、 12月,蘇寧電器分別入選中國著名品牌200強和2005中國上市公司競爭力七強。According to differences of construction process, boundary condition, temperature and stress of two schemes extending 3m deep short seam on upstream face in the middle of rcc overflow section and no short seam are calculated, what " s more, in this paper the equivalent line drawing of stable temperature field and unstable temperature field during construction and operation period and the duration curve drawing of typical points " s temperature and stress are plotted, and the results of peak and minimum on temperature in every month and maximum on tensile stress are attained
根據施工過程和邊界條件,對溢流壩段中間上游面增設3m深短縫和不設短縫兩個方案進行了溫度和應力計算,並繪制出穩定溫度場等值線圖及施工期、運行期非穩定溫度場等值線圖,典型點溫度和應力歷時曲線圖,逐月最高、最低溫度和最大拉應力及相應位置等成果。The position of biggest niche - fitness value of cotton fiber, which is topped in june 25 ( superscript th ) in multi - topping treatment move up to top
二、三次打頂處理中的6月25日打頂棉株棉纖維生態位適宜度最大值所在部位上移至棉株上部。Because of the complexity of calculation result data, and in order to simplify the analysis of results, this paper only provides annual temperature isoline map of february, may, august and november during construction, temperature isoline map of the first, fifth, tenth, twentieth and thirtieth year during operation, duration curve of temperature and stress of typical point at different elevation, the maximal stress distribution along dam height, point at different elevation, the maximal stress distribution along dam height, and the maximal and minimal temperature and the maximal tensive stress and its position of every month
因計算結果數據量非常大,為便於成果分析,本文僅給出施工期每年2 、 5 、 8 、 11月份和運行期第1 、 5 、 10 、 20 、 30年的溫度等值線圖,壩體不同高程典型點溫度和應力歷時曲線圖,最大應力沿壩高分布圖,逐月最高、最低溫度和最大拉應力值及相應的位置等。The velocity varies from 61. 5cm / s ( maximum ) in june to 48. 1cm / s ( minimum ) in march in the kuroshio extension, and the extreme appear at the position of the first meander. the extreme minish, and the month and position of the extreme change accordingly as it deepens
黑潮延續體的表層流速最大值則由6月份的61 . 5cm / s (最大值)變化到3月份的48 . 1cm / s (最小值) ,極值則出現在黑潮延續體西段大彎曲路徑的第一個峰處。The content of so2 is 0. 05 - 0. 06mg / m3, the max. of dusts is 10 / tmonth. all the specification of air o higher than the second - degree standard. second - dgree standard
二氧化硫含量為0 。 05 - 0 。 06毫克/立方米,一氧氣硫未檢出,降塵量最大值為10噸/月,各項指標均優于大氣二級環境指標標準。The figure of daily mean value in resent year showed : the medium term anomaly with impulse jumps appeared 11 months before the event, and the maximum of anomaly was 84 times of the normal rising rate ; the short term anomaly appeared 4 - 1 month before the event, and the maximum of anomaly was 274 times of normal mean fluctuation ; the imminent anomaly appeared 9 days before the event, and the maximum of anomaly was 2. 5 times of normal mean fluctuation
年日均值圖顯示,中期異常出現在震前11個月左右,表現為脈沖式向上突跳及階躍式上升,最大異常量為日均正常上升速率的84倍;中短期異常出現在震前4個月和1個月,最大異常量為正常日均波動值的274倍;臨震異常出現在震前的第9天,震前25小時達到最高值,最大異常量為正常日均波動值的2 . 5倍。With the meteorological and hydrographic data in songhuajiang and nenjiang valley from 1951 to 1995, using correlation analysis and empirical orthogonal analysis, the rule of the flood and relation between flood and precipitation distribution in this region are discussed. the results show that periodic change of water level is obvious in this region. now water level is in the serious stage from 1980 ' s. there are great relation between the water level of flood period and the precipitation. the unusual precipitation of nenjiang valley has greater impact than that of second songhuajiang valley. at the summer in 1998, songhuajiang and nenjiang valley encountered the ghastly flood and the reason for that is the anomalous precipitation great exceeding the historic maximum
利用松花江,嫩江流域1951 1995年期間的氣象和水文資料,採用相關分析,經驗正交分析等方法,討論了該流域洪澇發生的規律及其與流域內降水分佈的關系.文章指出,江流域的水位變化有明顯的階段性,且具有全流域一致的特性,目前正處在80年代以來洪澇較嚴重的階段;嫩江流域降水異常偏多對松花江洪澇的影響比第二松花江的作用要大; 1998年夏季,松花江,嫩江流域出現超歷史紀錄特大洪水的關鍵原因是嫩江流域6 8月的降水距平百分率遠遠超過了歷史上的的最大值In july, although the moisture transport from tropical indian ocean reaches its annual maximum to shandong, its contribution to summer rainfall over shandong during july and august is undistinguished. on the other hand, the contribution from sub - tropical west pacific is evident
7月雖然來自熱帶印度洋季風區的水汽輸送通量達到最大值,但7 8月它們對山東夏季降水異常的貢獻並不顯著,相反來自南海-西太平洋、中國大陸-日本海的水汽輸送以及西風帶天氣系統對山東夏季降水異常的貢獻較顯著。The surface current velocity displays the seasonal variability, too. the velocity varies from 71. 6cm / s ( maximum ) in december to 55. 4cm / s ( minimum ) in may in the kuroshio south of japan, and the position 01 extreme appear to the south of kii peninsula
黑潮表層流速最大值同樣存在著季節性變化特徵:日本以南黑潮表層流速最大值由12月份的71 . 6cm / s (最大值)變化到5月份的55 . 4cm / s (最小值) ,極值均出現在紀伊半島以南海域。But the character in south china sea is different and it gets the maximum of heat gain in april
日本海與東中國海凈熱通量變化趨勢基本一致,而南海在4月達到凈熱通量的最大值。In climatological itcz, the mean air - sea humidity difference is greater relatively so that the variation of wind speed under large mean air - sea humidity difference is the main factor influencing the variation of latent heat flux. the latent heat loss is greatest from june to august when the wind speed is largest in the region
在氣候平均的工tcz區,平均的背景海氣濕度差比較大,所以平均海氣濕度差背景下風速的變化主導潛熱通量的變化,因此該區潛熱損失最大值發生在風速最大的6一8月份。As to the fresh water, it is fresh water loss - in japan and east china sea with annual - 267mm and - 391mm respectively. south china sea gains fresh water with annual 222mm. there is a long and narrow maximum center off the west - northern kalimantan coast in indonesia, which gets 192mm in january and 1260mm yearly
淡水通量方面,日本海和渤黃東海蒸發量大於降水量,區域平均年淡水通量分別為- 267和- 391mm ,而南海該通量為正值,區域平均年總通量為222mm ,並在印度尼西亞加里曼丹島西北岸有一狹長的淡水通量最大值中心,在一月可達192mm ,年總通量1260mm 。This paper calculated the maximum mean velocity of wind and correspondences fluctuating wind continuous chart in duration of 100 years using greatest table sequence record in 10 minutes every month ( 3 ~ 5years ) in the basis of service life of the designed bridge and more probability
本文從實際風速時程記錄開始,利用短期( 3 5年)連續的10分鐘月最大時程記錄,在一定保證率下,按照小樣本推算極值的方法,推算100年一遇的平均風速以及在此基礎上的脈動風時程。The maximum value represents 100 nanoseconds before the beginning of january 1 of the year 10000
最大值表示10000年1月1日開始前的100納秒。分享友人