林业科学
林業科學
임업과학
SCIENTIA SILVAE SINICAE
2010年
3期
9-15
,共7页
顾兵%吕子文%梁晶%黄懿珍%周立祥%方海兰
顧兵%呂子文%樑晶%黃懿珍%週立祥%方海蘭
고병%려자문%량정%황의진%주립상%방해란
绿化植物废弃物%覆盖%城市林地%土壤肥力%微生物生物量
綠化植物廢棄物%覆蓋%城市林地%土壤肥力%微生物生物量
녹화식물폐기물%복개%성시임지%토양비력%미생물생물량
greenery wastes%mulching%urban forest land%soil fertility%microbial biomass
研究绿化植物废弃物覆盖对上海城市林地土壤肥力的影响.结果表明:绿化植物废弃物覆盖能降低土壤密度,提高土壤保水能力,增加总孔隙度和毛管孔隙度尤其是非毛管孔隙度;在试验设计的6 120 kg·hm~(-2)覆盖量范围内,覆盖能显著增加土壤有机质、全氮、全磷、水解性氮、有效磷和速效钾含量,且覆盖用量与这些土壤肥力指标成极显著正相关;土壤全钾含量的增加要在覆盖160天后且覆盖量高时才出现;覆盖后土壤微生物生物量碳、氮含量也显著增加,微生物周转速率加快,周期缩短,转移量增加,土壤微生物活性增强,有利于土壤养分的循环和保持;土壤微生物生物量碳、氮含量与土壤主要肥力指标显著正相关,能有效评价绿化植物废弃物覆盖对土地的改良效果.绿化植物废弃物覆盖对提高城市土壤质量、降低绿地养护费用有积极作用,也有利于节约型城市园林绿化的建设.
研究綠化植物廢棄物覆蓋對上海城市林地土壤肥力的影響.結果錶明:綠化植物廢棄物覆蓋能降低土壤密度,提高土壤保水能力,增加總孔隙度和毛管孔隙度尤其是非毛管孔隙度;在試驗設計的6 120 kg·hm~(-2)覆蓋量範圍內,覆蓋能顯著增加土壤有機質、全氮、全燐、水解性氮、有效燐和速效鉀含量,且覆蓋用量與這些土壤肥力指標成極顯著正相關;土壤全鉀含量的增加要在覆蓋160天後且覆蓋量高時纔齣現;覆蓋後土壤微生物生物量碳、氮含量也顯著增加,微生物週轉速率加快,週期縮短,轉移量增加,土壤微生物活性增彊,有利于土壤養分的循環和保持;土壤微生物生物量碳、氮含量與土壤主要肥力指標顯著正相關,能有效評價綠化植物廢棄物覆蓋對土地的改良效果.綠化植物廢棄物覆蓋對提高城市土壤質量、降低綠地養護費用有積極作用,也有利于節約型城市園林綠化的建設.
연구녹화식물폐기물복개대상해성시임지토양비력적영향.결과표명:녹화식물폐기물복개능강저토양밀도,제고토양보수능력,증가총공극도화모관공극도우기시비모관공극도;재시험설계적6 120 kg·hm~(-2)복개량범위내,복개능현저증가토양유궤질、전담、전린、수해성담、유효린화속효갑함량,차복개용량여저사토양비력지표성겁현저정상관;토양전갑함량적증가요재복개160천후차복개량고시재출현;복개후토양미생물생물량탄、담함량야현저증가,미생물주전속솔가쾌,주기축단,전이량증가,토양미생물활성증강,유리우토양양분적순배화보지;토양미생물생물량탄、담함량여토양주요비력지표현저정상관,능유효평개녹화식물폐기물복개대토지적개량효과.녹화식물폐기물복개대제고성시토양질량、강저록지양호비용유적겁작용,야유리우절약형성시완림녹화적건설.
Effect of mulching greenery waste on soil fertility of municipal forest land was studied. Result showed that greenery waste mulching reduced soil bulk density, improved water retention capacity of soil, and increased soil total porosity,capillary porosity,and especially non-capillary porosity.In the range of mulching amounts(6120kg·hm~(-2)) applied in this experiment, mulching also significantly enhanced contents of organic matter, total nitrogen, total phosphorus, hydrolyzable nitrogen, available phosphorus and available potassium in soil, and the amount of mulch had a remarkable positive correlation with these soil critical nutrition indexes. However, the increase of total potassium was not observed until 160 days after the treatment with high amount of mulch. The mulch also significantly raised the contents of microbial biomass carbon and microbial biomass nitrogen, accelerate microbial turnover rate, shorten microbial turnover time, increase microbial transfer capacity and activate soil microbial activity, which was beneficial to recycling and maintaining soil fertility. Microbial biomass carbon and microbial biomass nitrogen had a significant positive correlation with the soil critical nutrition indexes, which could be used to evaluate the remediation efficiency of mulching greenery wastes on land. The mulching of greenery wastes had a positive role in improving soil quality and reducing maintenance costs for green space which was favor to constructing the economical landscape and gardening for the urban.
