摘要
以闽西施用5 a竹林专用肥(一类)、5 a氮、磷、钾配方施肥(二类)、5 a有机肥(三类)、1 a竹林专用肥(四类)、1 a有机肥(五类)等不同施肥类型毛竹林为研究对象,以不施肥毛竹林(六类)为对照,研究了施肥对毛竹林生物量及碳储量分配格局的影响。结果表明:(1)施肥增大了毛竹生物量,表现为三类(91.18 t/hm^2)〉一类(83.61 t/hm^2)〉二类(71.38 t·hm^2)〉五类(71.12 t/hm^2)〉四类(65.13 t/hm^2)〉六类(57.83 t/hm^2),施肥能够提高毛竹叶片、竹枝、竹秆等地上部分的生物量及其占毛竹总生物量的比例,增大毛竹地上/地下生物量的比值,且施肥5年(一、二、三类)〉施肥1 a(四、五类)〉不施肥(六类);(2)不同施肥处理下毛竹碳储量为28.37-45.99 t/hm^2,施用5 a有机肥(三类)最大,不施肥(六类)最小;竹秆是毛竹碳储量的主要贡献器官,而竹叶贡献率不足4%;与未施肥竹林相比,毛竹施肥后地上部分固碳总量有较大提升;(3)不同施肥处理下毛竹年净生产力、年固碳量和同化CO2量均表现为三类〉一类〉二类〉五类〉四类〉六类,年同化CO2量分别为41.42、41.17、30.99、23.47、20.69、20.00 t/(hm^2·a);施肥年限对毛竹年净生产力有较大影响,施肥5 a(一、二、三类)均能够显著提高毛竹年净生产力。
To study the effects of fertilization on the distribution patterns of biomass and carbon storage in Moso bamboo(Phyllostachys edulis), taking the non-fertilized Moso bamboo forest as the control, Moso bamboo forests with five fertilization types, including 5-year application of specialized fertilizer for bamboo( Ⅰ), 5-year formula NPK-fertilizer(Ⅱ), 5-year organic fertilizer(Ⅲ), and 1-year application of specialized fertilizer for bamboo(Ⅳ),1-year organic fertilizer(Ⅳ) were selected as the research object in Yong ' an City. The results showed that: 1)Fertilization could increase the biomass of P. edulis, which was in order of Ⅲ(91.18 t/hm^2)〉Ⅰ(83.61 t/hm^2)〉Ⅱ(71.38 t/hm^2)〉Ⅴ(71.12 t/hm^2)〉Ⅳ(65.13 t/hm^2)〉Ⅵ(57.83 t/hm^2); Fertilization could improve aboveground biomass,including leaf, branch, stem biomass, and increase the proportions to total biomass. Meanwhile, the ratio of above-/below-ground biomass increased in the order of 5-year fertilization application( Ⅰ, Ⅱ, Ⅲ) 〉1-year fertilization application(Ⅵ, Ⅴ)〉non-fertilization application. 2)The carbon stock of standing bamboos ranged from 28.37 to 45.99 t C/hm^2 with the highest value in 5-year application of organic fertilizer(Ⅲ) and the lowest value in nonfertilization application(Ⅵ). Stem was a major contributor to the total carbon storage, while leaf contributed less than 4%. Compared with bamboo forest with non-fertilization application, aboveground carbon storage was improved after the application fertilization. 3)Net primary productivity, annual fixation carbon and annual carbon dioxide sequestration of standing bamboos were in the order of Ⅲ 〉Ⅰ〉 Ⅱ〉 Ⅴ〉 Ⅳ〉 Ⅵ with the values of annual carbon dioxide sequestration of 41.42, 41.17, 30.99, 23.47, 20.69, 20.00 t/(hm^2·a), respectively. The timing of fertilizationapplication had gerat impacts on annual net productivity, and 5-year fertilization application(Ⅰ,Ⅱ,Ⅲ) were able to significantly improve net annual productivity in P. edulis forest.
出处
《热带作物学报》
CSCD
北大核心
2015年第5期872-877,共6页
Chinese Journal of Tropical Crops
基金
国际竹藤中心基本科研业务专项(No.1632013011)
林业公益性行业科研专项(No.201404408)
“十二五”科技支撑课题(No.2012BAD23B04)
关键词
毛竹
施肥
生物量
碳储量
分布格局
Phyllostachys edulis
Fertilization
Biomass
Carbon storage
Distribution patterns