摘要
用土钻法调查了水曲柳、落叶松纯林及其混交林的根系分布 ,并在温室内用盆栽和床栽方法测定了混栽及纯栽水曲柳、落叶松的根系生长。野外调查结果表明 :在混交林中 ,水曲柳、落叶松根系的水平分布不同 ,在水曲柳、落叶松相邻行间和水曲柳带内 1、2行间 ,水曲柳根密度分别为 32 37 2g·m- 3 和 3130 2g·m- 3 ,无明显差异。而在水曲柳落叶松相邻行间和落叶松带内 1、2行间 ,落叶松的根密度分别为 939 4g·m- 3 和2 745 3g·m- 3 ,差异明显。水曲柳根系有向落叶松带伸展的趋势 ,而落叶松根系的分布则受到水曲柳的抑制。混交林中根系的垂直分布更加均匀 ,在水曲柳落叶松相邻行间 ,0~ 10cm、10~ 2 0cm和 2 0~ 30cm土层内根量分别占总根量的 41 9%、2 8 7%和 2 9 4%。而水曲柳纯林中分别为 6 1 0 %、31 6 %和 7 4% ;落叶松纯林中分别为 5 5 6 %、2 7 9%和 16 5 %。温室栽培实验表明 :无论盆栽和床栽 ,混栽水曲柳的根生物量和地上生物量均高于纯栽 ,尤其是≤ 2mm细根生物量增加明显 ,盆栽时增加 2 8 8% ,床栽时增加 36 5 %。而混栽时落叶松的根生物量和地上生物量均低于纯栽。水曲柳的地下 地上比较高 ,约是落叶松的 2倍。水曲柳的根生物量约是落叶松的 4~ 6倍。上述结果说明 。
In order to find out the effects of root\|root interactions on their production in the mixed stand,root growth and distribution studies were carried out both in the field and greenhouse.In the field studies,root density was studied on pure \%Fraxinus mandshurica,Larix gmelinii,\%and the zonal mixed plantations,all 10 years after planting,using a soil corer technique.Samples were taken along transects at the middle of plantation rows.Each sample was divided into three depth classes (0~10 cm,10~20 cm and 20~30 cm).In greenhouse,ash pure,larch pure and the mixed were planted both at pots and seedbed.4 seedlings were planted in one pot and 12 in one seedbed.\;The results from field experiments showed:horizontal distribution of root was different between ash and larch.Root density of ash was 3237 2 g\5m -3 and 3130 2 g\5m -3 between two species rows and between row 1 and 2 in the ash belt (including 3 rows,row 1 is on the side of other species),respectively.But the differences were not significant.However,root density of larch is only 939 4 g\5m -3 between two species rows,much lower than 2745 3 g\5m -3 between row 1 and 2 in the larch belt (including 5 rows).This result demonstrated that ash root had the tendency to invade to larch,and root distribution of larch was inhibited by ash.The vertical distribution of roots along the soil profile was more even in mixed plantations compared to pure plantations.Between two species rows,the proportion of root biomass within 0~10 cm, 10~20 cm and 20~30 cm depth soil layers was 41 9 %,28 7 % and 29 4 % of the total root biomass respectively, but 61 0 %,31 6% and 7 4 % in ash pure stand,55 6 %,27 9 % and 16 5 % in larch pure stand. Root density of ash is 3718 0 g\5m -3 ,higher than that of larch of which was 3040 7 g\5m -3 .\;Greenhouse plantation results showed that the below\|and above\|ground biomass of ash was higher in mixed plantation than in pure planted both for potted or seedbed seedlings,particularly of that fine\|root biomass (≤2 mm in diameter).Fine\|root mass of potted and seedbed seedlings were increased about 28.8 % and 36.5 % respectively.In contrast,below\|and above\|ground biomass of larch was lower in mixed than in pure planted.Root/shoot ratio of ash was 0.78~0.81 for potted seedlings and 0.52~0.55 for seedbed seedlings,2 times higher than that of larch.The total root mass of ash was 4~6 times higher than that of larch.\;With relatively larger root mass and root/shoot ratio,ash is a superior competitor.Root system of ash developed rapidly and distributed widely,but slowly and straitly for larch under the condition of the mixed.It was this competition differences that had resulted in the significant increase of ash production in the mixed plantations.
出处
《林业科学》
EI
CAS
CSCD
北大核心
2001年第5期18-23,共6页
Scientia Silvae Sinicae
基金
国家自然科学基金资助项目 (项目编号 :392 30 2 80 )
关键词
混交林
根系
水曲柳
落叶松
树木竞争
根系分布
Mixed stand, Root system, \%Fraxinus mandshurica, Larix gmelinii,\% Competition among trees
