农林废弃物育苗基质的保水保肥效应

doi:10.11707/j.1001-7488.20151204

摘要/Abstract

摘要： [目的]农林废弃物具有种类多、易获取且含有一定养分等优点,开发其作为林木育苗基质,以替代不可再生的草炭基质。本文通过对不同基质组成的保水保肥效应研究,寻找出最适宜的育苗基质。[方法]以木耳废弃菌棒、玉米腐熟秸秆、玉米腐熟穗芯为主要组分,配以落叶松松针腐殖质、蛭石,再添加不同比例的保水剂组成不同配比的育苗基质,分析其理化性质和保水保肥性及实际育苗效果。[结果] 1)以农林废弃物为主要成分的基质pH值、容重、总孔隙度均达到了理想栽培基质的要求,与以草炭土为主要组成的基质没有显著差异。2)不添加保水剂的木耳废弃菌棒混合基质(T₁)、玉米腐熟秸秆混合基质(T₂)、玉米腐熟穗芯混合基质(T₃)与对照草炭土混合基质(CK₂)的保水性无显著差异。添加1%保水剂的基质保水性优于含0.5%保水剂的基质。同时含1%保水剂的木耳废弃菌棒混合基质(T₄)、玉米腐熟穗芯混合基质(T₈)的基质保水性显著优于以草炭为主要组成的基质(CK₂)(P<0.05)。3)添加保水剂的基质保肥性增强,氮、磷、钾流失量显著小于不含保水剂的基质。添加1%保水剂的基质平均养分流失量最少,基质氮、磷、钾养分流失量显著小于以草炭土为主的混合基质(CK₂)(P<0.05),仅占草炭土基质养分流失量的50%~77%,比添加0.5%保水剂的基质养分平均流失减少20%~40%。4)未添加保水剂的农林废弃物混合基质所培育的白桦,苗高和地径生长量与常规营养土(CK₁)无显著差异(P>0.05),其高茎比优于草炭土基质(CK₂);添加1%保水剂的基质平均苗木质量指数优于添加量为0.5%的基质。[结论]农林废弃物混合基质在理化性质及保水保肥性与草炭土基质理化性质和保水保肥性相似。添加1%保水剂的农林废弃物混合基质,其保水保肥及育苗效果更佳。

关键词: 农林废弃物, 保水性, 保肥性

Abstract: [Objective]Agricultural and forestry residues have many advantages, e.g. accessible, containing a certain amount of nutrients. It is meaningful to reuse them as a matrix of container seedlings to replace non-renewable peat. Our objective is to explore an excellent matrix for the seedlings, by comparing the water and nutrient preservation of nursery matrix composed of agri-forest residues.[Method]These media were composed of waste sticks after edible fungus culture, corn cores or corn straws, with adding larch needle-humus and vermiculite. And then either 1% or 0.5% water retention agent were added to some of the nursery media.[Result]1) The pH, bulk density and total porosity reached the ideal culture substrate requirements in the three agri-forest residues matrices. These indexes had no significant difference from those of peat-soil matrix. 2) Without water retention agent, the water retaining ability of waste fungus matrix and the corn maturity core matrix was almost the same as that of peat-soil matrix. All kinds of matrices with adding 1% water retention agent had significant higher water retaining ability than those with adding 0.5% water retention agent. The water retaining abilities of waste fungus matrix and of corn maturity core with 1% water retention agent adding were all significant higher than that of peat-soil matrix(P<0.05). 3) After adding water retention agent, the overall nitrogen, phosphorus and potassium loss was significantly less than those without water retention agent addition. The more the water retention agent was added, the less nutrient elements lost, reducing by 20%-40%. When added 1% water retention agent, nutrient preserving ability of all kinds of matrices was significantly higher than that of peat-soil matrix(P<0.05), just missing 50%-77% nutrient of peat-soil matrix. 4) Without water retention agent, the seedling height and stem diameter had no significant difference among all the treatments and control. But the ratio of height to stem diameter was significant higher than those in the peat-soil matrix. The seedling quality index was higher in matrix with 1% water retention agent than that in 0.5%, especially the matrix with corn core.[Conclusion]The water and nutrient preservation of nursery matrix composed of agri-forest residues was similar to peat-soil matrix. It is suggested that 1% water retention agent should be added into the agri-forest residues matrices to promote the growth of seedlings.

Key words: agricultural and forestry residues, water-retaining property, nutrient preserving ability

中图分类号:

S723.133

卫星, 李贵雨, 吕琳. 农林废弃物育苗基质的保水保肥效应[J]. 林业科学, 2015, 51(12): 26-34.

Wei Xing, Li Guiyu, Lü Lin. Water and Nutrient Preservation of Agri-Forest Residues Used as Nursery Matrix[J]. Scientia Silvae Sinicae, 2015, 51(12): 26-34.

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