西北植物学报
西北植物學報
서북식물학보
ACTA BOTANICA BOREALI-OCCIDENTALIA SINICA
2012年
3期
546-554
,共9页
干旱区%富士苹果%树干液流%环境因子
榦旱區%富士蘋果%樹榦液流%環境因子
간한구%부사평과%수간액류%배경인자
arid area%Fuji Apple%stem sap flow%circumstance factors
选择新疆阿克苏干旱区富士苹果为研究对象,利用TDP茎流计连续测定苹果树干液流,并用自动气象站同步记录环境因子变化,探讨环境因子对树下液流的影响.结果显示:液流速率连日的变化过程是一个最大值不同的正弦曲线,夜间液流速率降低,白天液流速率上升;晴天液流速率呈明显的单峰曲线,阴天液流速率表现为多峰或双峰曲线,不论是晴天还是阴天,苹果在夜间仍然有微弱的活动,这种现象可能与新疆阿克苏地区的地理位置和气候有关;在苹果主要生长季内,树干液流速率(Fs)与大气温度(Ta)、太阳辐射(Rn)、相对湿度(RH)有较好的复相关关系(R2 =0.93*),且影响苹果树液流速率Fs的最主要气象因子为大气温度Ta;苹果生长季内耗水总量为4 059.64 L,并以7月耗水量最大(765.34 L),占耗水总量的18.85%.研究表明,TDP径流计能够精确测定生长季内苹果茎干的液流速率与耗水量,且在干旱区影响苹果茎干液流变化的主要环境因子依次是大气温度、太阳辐射、相对湿度.
選擇新疆阿剋囌榦旱區富士蘋果為研究對象,利用TDP莖流計連續測定蘋果樹榦液流,併用自動氣象站同步記錄環境因子變化,探討環境因子對樹下液流的影響.結果顯示:液流速率連日的變化過程是一箇最大值不同的正絃麯線,夜間液流速率降低,白天液流速率上升;晴天液流速率呈明顯的單峰麯線,陰天液流速率錶現為多峰或雙峰麯線,不論是晴天還是陰天,蘋果在夜間仍然有微弱的活動,這種現象可能與新疆阿剋囌地區的地理位置和氣候有關;在蘋果主要生長季內,樹榦液流速率(Fs)與大氣溫度(Ta)、太暘輻射(Rn)、相對濕度(RH)有較好的複相關關繫(R2 =0.93*),且影響蘋果樹液流速率Fs的最主要氣象因子為大氣溫度Ta;蘋果生長季內耗水總量為4 059.64 L,併以7月耗水量最大(765.34 L),佔耗水總量的18.85%.研究錶明,TDP徑流計能夠精確測定生長季內蘋果莖榦的液流速率與耗水量,且在榦旱區影響蘋果莖榦液流變化的主要環境因子依次是大氣溫度、太暘輻射、相對濕度.
선택신강아극소간한구부사평과위연구대상,이용TDP경류계련속측정평과수간액류,병용자동기상참동보기록배경인자변화,탐토배경인자대수하액류적영향.결과현시:액류속솔련일적변화과정시일개최대치불동적정현곡선,야간액류속솔강저,백천액류속솔상승;청천액류속솔정명현적단봉곡선,음천액류속솔표현위다봉혹쌍봉곡선,불론시청천환시음천,평과재야간잉연유미약적활동,저충현상가능여신강아극소지구적지리위치화기후유관;재평과주요생장계내,수간액류속솔(Fs)여대기온도(Ta)、태양복사(Rn)、상대습도(RH)유교호적복상관관계(R2 =0.93*),차영향평과수액류속솔Fs적최주요기상인자위대기온도Ta;평과생장계내모수총량위4 059.64 L,병이7월모수량최대(765.34 L),점모수총량적18.85%.연구표명,TDP경류계능구정학측정생장계내평과경간적액류속솔여모수량,차재간한구영향평과경간액류변화적주요배경인자의차시대기온도、태양복사、상대습도.
This test selected Fuji Apple in northwest arid area as research object.By using Thermal Dissipation Probe to successively measure the stem sap flow and automatic weather station to synchronously record the change of circumstance factors,we investigated the effects of circumstance factors on stem sap flow velocity (SFV).The main results showed that:Stem sap flow velocity of Fuji Apple in a series of days took on irregular sine curve with different peak values which decreased during the night and increased during the daytime;the sap flow velocity took on obvious single peak curve in clear days while in cloudy days it presented double peak curve or multi peak curve.Whether it was clear days or cloudy days,apple still had weak movement in the night,this phenomenon may have relationship with the unique geographical position and climate condition of Aksu;during the main growth period,sap flow velocity (Fs) had multiple correlation with atmospheric temperature (Ta),solar radiation (Rn) and relative humidity (RH),among which atmospheric temperature was the main influencing factor;in the whole growing season,the total water consumption of Fuji Apple was 4 059.64 L,of which water consumption in July was 765.34 L which was the highest,taking 18.85 percent of total water consumption.Research indicated that thermal dissipation probe can accurately measure the sap flow velocity and water consumption of Fuji Apple,furthermore,the main environment factors affect sap flow velocity are in the sequence of atmospheric temperature (Ta),solar radiation (Rn),relative humidity (RH).
