生态学报
生態學報
생태학보
ACTA ECOLOGICA SINICA
2009年
12期
6638-6645
,共8页
同小娟%张劲松%孟平%尹昌君%高峻%黄辉%国琳
同小娟%張勁鬆%孟平%尹昌君%高峻%黃輝%國琳
동소연%장경송%맹평%윤창군%고준%황휘%국림
人工林%净生态系统碳交换%涡度相关%光合有效辐射%气温%饱和差
人工林%淨生態繫統碳交換%渦度相關%光閤有效輻射%氣溫%飽和差
인공림%정생태계통탄교환%와도상관%광합유효복사%기온%포화차
plantation%net ecosystem carbon exchange%eddy covariance%photosynthetically active radiation%air temperature%vapor pressure deficit
植树造林使我国森林碳储量显著增加,人工林潜在的碳汇功能不容忽视.基于涡度相关技术,对华北低丘山地30年生栓皮栎-刺槐-侧柏人工混交林生态系统进行了连续2a的碳通量观测,以探讨净碳交换(NEE)与气象因子的关系.结果表明:在主要生长季(4~9月份),夜间日平均NEE(生态系统呼吸)随气温升高呈指数增长(P<0.01).2006年和2007年生态系统呼吸的温度敏感系数(Q_(10))分别为1.92和1.86.气温在10℃以下时,NEE日总量较小.气温超过10℃后,人工林以净吸收大气CO_2为主,且日吸收量随温度升高迅速增加.白天净碳吸收量随光合有效辐射(PAR)增加而增大(P<0.01),可由直角双曲线方程描述;不过,当饱和差(VPD)小于1.0 kPa时,二者呈线性相关(P<0.01).2006年和2007年主要生长季(4~9月份)的平均表观初始光能利用率(α)分别为0.032和0.019,平均最大光合速率(P_(max))分别为0.96mg · m~(-2) · s~(-1)和1.10 mg · m~(-2) · s~(-1).α和P_(max)都存在季节变化.在月尺度,P_(max)与VPD和PAR呈明显的负相关关系(分别为P<0.01和P<0.05),但与气温相关性不显著;α与对应的PAR、气温和VPD均无明显相关关系.
植樹造林使我國森林碳儲量顯著增加,人工林潛在的碳彙功能不容忽視.基于渦度相關技術,對華北低丘山地30年生栓皮櫟-刺槐-側柏人工混交林生態繫統進行瞭連續2a的碳通量觀測,以探討淨碳交換(NEE)與氣象因子的關繫.結果錶明:在主要生長季(4~9月份),夜間日平均NEE(生態繫統呼吸)隨氣溫升高呈指數增長(P<0.01).2006年和2007年生態繫統呼吸的溫度敏感繫數(Q_(10))分彆為1.92和1.86.氣溫在10℃以下時,NEE日總量較小.氣溫超過10℃後,人工林以淨吸收大氣CO_2為主,且日吸收量隨溫度升高迅速增加.白天淨碳吸收量隨光閤有效輻射(PAR)增加而增大(P<0.01),可由直角雙麯線方程描述;不過,噹飽和差(VPD)小于1.0 kPa時,二者呈線性相關(P<0.01).2006年和2007年主要生長季(4~9月份)的平均錶觀初始光能利用率(α)分彆為0.032和0.019,平均最大光閤速率(P_(max))分彆為0.96mg · m~(-2) · s~(-1)和1.10 mg · m~(-2) · s~(-1).α和P_(max)都存在季節變化.在月呎度,P_(max)與VPD和PAR呈明顯的負相關關繫(分彆為P<0.01和P<0.05),但與氣溫相關性不顯著;α與對應的PAR、氣溫和VPD均無明顯相關關繫.
식수조림사아국삼림탄저량현저증가,인공림잠재적탄회공능불용홀시.기우와도상관기술,대화북저구산지30년생전피력-자괴-측백인공혼교림생태계통진행료련속2a적탄통량관측,이탐토정탄교환(NEE)여기상인자적관계.결과표명:재주요생장계(4~9월빈),야간일평균NEE(생태계통호흡)수기온승고정지수증장(P<0.01).2006년화2007년생태계통호흡적온도민감계수(Q_(10))분별위1.92화1.86.기온재10℃이하시,NEE일총량교소.기온초과10℃후,인공림이정흡수대기CO_2위주,차일흡수량수온도승고신속증가.백천정탄흡수량수광합유효복사(PAR)증가이증대(P<0.01),가유직각쌍곡선방정묘술;불과,당포화차(VPD)소우1.0 kPa시,이자정선성상관(P<0.01).2006년화2007년주요생장계(4~9월빈)적평균표관초시광능이용솔(α)분별위0.032화0.019,평균최대광합속솔(P_(max))분별위0.96mg · m~(-2) · s~(-1)화1.10 mg · m~(-2) · s~(-1).α화P_(max)도존재계절변화.재월척도,P_(max)여VPD화PAR정명현적부상관관계(분별위P<0.01화P<0.05),단여기온상관성불현저;α여대응적PAR、기온화VPD균무명현상관관계.
In China, the potential carbon sink of plantation could not be neglected because forest carbon storage increased significantly by afforestation in recent decades. In this study, CO_2 flux was measured continuously using the eddy covariance technique over a 30-year aged mixed plantation in the hilly zone of the North China from 2006 to 2007. The major tree species are Quercus variabilis, Robinia pseudoacacia and Platycladus orientalis. The relationships between net ecosystem carbon exchange(NEE)and main meteorological factors were investigated. The results showed that daily mean nighttime NEE increased exponentially with an increase of air temperature (P<0.01). The temperature sensitivity (Q_(10)) of ecosystem respiration was 1.92 in 2006 and 1.86 in 2007. On daily scale, NEE varied within a small range of ±5 g · m~(-2) · d~(-1) when air temperature was lower than 10℃. Daily net carbon uptake by plantation increased obviously with air temperature when air temperature was more than 10℃. In the main growing season (April-September), daytime net carbon uptake was positively related with photosynthetically active radiation (PAR). The relationship between NEE and PAR could be expressed by the rectangular hyperbolic function. However, there was a linear relationship between NEE and PAR when vapor pressure deficit (VPD) was less than 1.0 kPa. In the main growing season, the apparent initial light use efficiency (α) averaged 0.032 in 2006 and 0.019 in 2007. The maximal assimilation rate (P_(max)) averaged 0.96 mg · m~(-2) · s~(-1) in 2006 and 1.10 mg · m~(-2) · s~(-1) in 2007. Seasonal variation of P_(max) and α was obvious. On monthly scale, P_(max) had negative correlations with VPD (P<0.01) and PAR (P<0.05) but was not related with air temperature. No significant correlation could be found between α and PAR, VPD and air temperature.
