山地学报
山地學報
산지학보
JOURNAL OF MOUNTAIN SCIENCE
2001年
1期
33-37
,共5页
邱仁辉%杨玉盛%彭加才%陈光水%俞新妥%李振问
邱仁輝%楊玉盛%彭加纔%陳光水%俞新妥%李振問
구인휘%양옥성%팽가재%진광수%유신타%리진문
人工促进天然更新%群落%生产力%土壤肥力%杉木人工林%米槠
人工促進天然更新%群落%生產力%土壤肥力%杉木人工林%米櫧
인공촉진천연경신%군락%생산력%토양비력%삼목인공림%미저
通过对常绿阔叶林采伐迹地进行人工促进天然更新的以米槠为主的次生林(人促落)和营造杉木人工林24a后的比较研究,结果显示:人促群落乔木层组成树种为27种,灌木层种类为49种,而对照(杉木人工林)的则分别为12种、32种,人促群落树种组成和结构比对照的复杂。人促群落林分生产力(单位面积蓄积加316.912 m2/hm2)亦比对照的(单位面积蓄积量283.288 m3/hm2)高。与对照的相比,人促群落0 cm~20 cm土层土壤哮聚长、>0.25 mm水稳性团聚体含量分别高3.17 %、5.65 %,而分散系数、结构体破坏率分别低11.94 %、5.01 %;土壤总孔隙度和非毛管孔隙度分别高7.12 %、1.75 %;土壤容重低14.97 %;有机质含量高7.602 g/kg;土壤酶活性较强,呼吸作用强度较大。这表明人促群落土壤结构性能、土壤保肥和供肥能力、土壤 手化作用强度比对照均有较明显的提高。说明在常绿阔叶林采伐迹地上,采用人工促进天然更新是恢复常绿阔叶林,维持林地长期生产力较好的模式之一。
通過對常綠闊葉林採伐跡地進行人工促進天然更新的以米櫧為主的次生林(人促落)和營造杉木人工林24a後的比較研究,結果顯示:人促群落喬木層組成樹種為27種,灌木層種類為49種,而對照(杉木人工林)的則分彆為12種、32種,人促群落樹種組成和結構比對照的複雜。人促群落林分生產力(單位麵積蓄積加316.912 m2/hm2)亦比對照的(單位麵積蓄積量283.288 m3/hm2)高。與對照的相比,人促群落0 cm~20 cm土層土壤哮聚長、>0.25 mm水穩性糰聚體含量分彆高3.17 %、5.65 %,而分散繫數、結構體破壞率分彆低11.94 %、5.01 %;土壤總孔隙度和非毛管孔隙度分彆高7.12 %、1.75 %;土壤容重低14.97 %;有機質含量高7.602 g/kg;土壤酶活性較彊,呼吸作用彊度較大。這錶明人促群落土壤結構性能、土壤保肥和供肥能力、土壤 手化作用彊度比對照均有較明顯的提高。說明在常綠闊葉林採伐跡地上,採用人工促進天然更新是恢複常綠闊葉林,維持林地長期生產力較好的模式之一。
통과대상록활협림채벌적지진행인공촉진천연경신적이미저위주적차생림(인촉락)화영조삼목인공림24a후적비교연구,결과현시:인촉군락교목층조성수충위27충,관목층충류위49충,이대조(삼목인공림)적칙분별위12충、32충,인촉군락수충조성화결구비대조적복잡。인촉군락림분생산력(단위면적축적가316.912 m2/hm2)역비대조적(단위면적축적량283.288 m3/hm2)고。여대조적상비,인촉군락0 cm~20 cm토층토양효취장、>0.25 mm수은성단취체함량분별고3.17 %、5.65 %,이분산계수、결구체파배솔분별저11.94 %、5.01 %;토양총공극도화비모관공극도분별고7.12 %、1.75 %;토양용중저14.97 %;유궤질함량고7.602 g/kg;토양매활성교강,호흡작용강도교대。저표명인촉군락토양결구성능、토양보비화공비능력、토양 수화작용강도비대조균유교명현적제고。설명재상록활협림채벌적지상,채용인공촉진천연경신시회복상록활협림,유지임지장기생산력교호적모식지일。
The secondary forest dominated by Castauopsis carlesii with artificial measures promoting regeneration (AMPR) and Cunninghamia lanceolata plantation (control) reforested on slash area of evergreen broad-leaved forest after 24 years was compared. The results showed that the species amount of tree, shrub stratum of AMPR was of 27,49 respectively, while that of the control was of 12,32. The tree species composition and structure of AMPR stand were more complex. The stand volume of AMPR was of 316.912 m3/hm2, but that of the control was of 283.288 m3/hm2. In 0~20cm soil depth, the AMPR soil degree of aggregation, contents of >0.25mm waterstable aggregate increased by 3.17%,5.65% respectively, while thebulk density, dispersion ratio, destroy rate of ped decreased by 14.97%,11.94%,5.01% each. The total porosity, non-capillary porosity increased by 7.12%,1.75%;the ontents of organic matter increased by 7.602 g/kg; the soil enzymes activity and soil respiration intensity were enhanced compared with the control. It revealed that the soil structure properties, the capability of containing and supplying fertility and soil biochemical action intensity of AMPR were improved obviously. All above indicated that AMPR is one of the good patterns, which could recover evergreen broad-leaved forest and maintained long-term site productivity.
