硬覆盖对城市街路行道树土壤呼吸的影响
|
摘要
本文应用静态气室法对硬覆盖条件下街路行道树的土壤呼吸进行了测定,研究了硬覆盖对行道树立地土壤的理化性质、土壤温度和微生物含量的改变,及对土壤呼吸带来的影响。结果表明:
街路硬覆盖的铺设使街路行道树立地土壤的层次和结构发生变化、容重加大、孔隙变少、有机质含量变低,但对N,P,K含量影响不大;
硬覆盖使其下的土壤微生物含量减少,降低了微生物对土壤中营养物质的生物化学转化过程,进而危及树木所需多种营养物质的供应;
硬覆盖能使相同气候条件下的土壤温度变高,在夏季形成对地表根系和树干的高温灼烧,秋季突然降温时,由于巨大的温差使得植物细胞无法适应,形成胞间和胞内结冰,造成细胞膜的破裂,进而死亡;
硬覆盖能在大气和土壤间形成气体交换屏障,使土壤呼吸产生的大量CO2积聚在硬覆盖层以下,使街路行道树长期生长在高浓度CO2的土壤中,胁迫根系进行厌氧呼吸,终产物(乳酸,主要是乙醇)将导致根系生长停止,使耗能的离子运输受阻,根系的透水性下降,进而使透过受伤(垂死)根系的溶液质流紊乱,最终导致树木的死亡。
根据研究结果提出了改善街路树立地土壤环境的建议:
在街路铺设时,尽量减少硬覆盖,加大裸地面积,给每株行道树留下足够其生长需要的土壤空间;在条件允许情况下,将硬覆盖改成
透气铺装或软覆盖;必要时在地下埋设通气管道,安装透气井等装置;合理改良土壤、补充水分和养分,为行道树正常生长建立良好的土壤条件。
The respiration of the crust-covered soil under the trees along the People’s Street in Changchun city was measured using captive test in this paper. The chemical and physics qualities, temperature, the changing of microbes’ content of the crust covered soil and the influence to the respiration of the soil were studied. The result showed as following:
The arrangement and the structure of the soil were changed by the crust-covered paving. It made the capacity of soil bigger, the hole smaller and the organic materials less,however it had little influence on the content of the N,P,K in the soil.
The content of the microbes in the soil was decreased and the process of the translation between the biology and chemistry of nutriments was hindered by the crust-covered paving. It is very harmful for the providing of the nutriments to the trees growing.
The crust-covered paving would lead to the higher temperature of the soil under the same conditions and burn the root in the surface layer and stock when under the summer high temperature. Plant cells could not adapt to the great temperature change for the freezing between the cells and in the cells which would lead to the break of cell membrane and in the end lead to the death of the trees when the autumn is coming.
The air exchange between the air and the soil would be hindered by the crust-covered paving. It increased the concentration of CO2 in the soil. With the stress of high concentration of CO2 for a long time, the roots had to respire under anaerobic condition. Ultimate products (lactic acid, mainly ethanol)would prevent the growth of the roots and the transit of the consume iron. The infiltration of the roots would
decrease and finally,the trees would die.
The improvement methods to the soil conditions under the crust-covered paving were put forward as following:
The area of the crust-covered soil should be decreased and the area of the uncovered soil should be increased so that there is enough soil capacity for the trees’ growing. If condition permitted, the paving which can make the breath freely or soft covered paving should be used instead of the crust-covered soil. The pipeline or the well to make soil breathe freely should be put under the ground if necessary. The methods of improving the soil conditions and supplying water and nutriment to soil should be adapted in order to improve conditions for the trees growing.
街路硬覆盖的铺设使街路行道树立地土壤的层次和结构发生变化、容重加大、孔隙变少、有机质含量变低,但对N,P,K含量影响不大;
硬覆盖使其下的土壤微生物含量减少,降低了微生物对土壤中营养物质的生物化学转化过程,进而危及树木所需多种营养物质的供应;
硬覆盖能使相同气候条件下的土壤温度变高,在夏季形成对地表根系和树干的高温灼烧,秋季突然降温时,由于巨大的温差使得植物细胞无法适应,形成胞间和胞内结冰,造成细胞膜的破裂,进而死亡;
硬覆盖能在大气和土壤间形成气体交换屏障,使土壤呼吸产生的大量CO2积聚在硬覆盖层以下,使街路行道树长期生长在高浓度CO2的土壤中,胁迫根系进行厌氧呼吸,终产物(乳酸,主要是乙醇)将导致根系生长停止,使耗能的离子运输受阻,根系的透水性下降,进而使透过受伤(垂死)根系的溶液质流紊乱,最终导致树木的死亡。
根据研究结果提出了改善街路树立地土壤环境的建议:
在街路铺设时,尽量减少硬覆盖,加大裸地面积,给每株行道树留下足够其生长需要的土壤空间;在条件允许情况下,将硬覆盖改成
透气铺装或软覆盖;必要时在地下埋设通气管道,安装透气井等装置;合理改良土壤、补充水分和养分,为行道树正常生长建立良好的土壤条件。
The respiration of the crust-covered soil under the trees along the People’s Street in Changchun city was measured using captive test in this paper. The chemical and physics qualities, temperature, the changing of microbes’ content of the crust covered soil and the influence to the respiration of the soil were studied. The result showed as following:
The arrangement and the structure of the soil were changed by the crust-covered paving. It made the capacity of soil bigger, the hole smaller and the organic materials less,however it had little influence on the content of the N,P,K in the soil.
The content of the microbes in the soil was decreased and the process of the translation between the biology and chemistry of nutriments was hindered by the crust-covered paving. It is very harmful for the providing of the nutriments to the trees growing.
The crust-covered paving would lead to the higher temperature of the soil under the same conditions and burn the root in the surface layer and stock when under the summer high temperature. Plant cells could not adapt to the great temperature change for the freezing between the cells and in the cells which would lead to the break of cell membrane and in the end lead to the death of the trees when the autumn is coming.
The air exchange between the air and the soil would be hindered by the crust-covered paving. It increased the concentration of CO2 in the soil. With the stress of high concentration of CO2 for a long time, the roots had to respire under anaerobic condition. Ultimate products (lactic acid, mainly ethanol)would prevent the growth of the roots and the transit of the consume iron. The infiltration of the roots would
decrease and finally,the trees would die.
The improvement methods to the soil conditions under the crust-covered paving were put forward as following:
The area of the crust-covered soil should be decreased and the area of the uncovered soil should be increased so that there is enough soil capacity for the trees’ growing. If condition permitted, the paving which can make the breath freely or soft covered paving should be used instead of the crust-covered soil. The pipeline or the well to make soil breathe freely should be put under the ground if necessary. The methods of improving the soil conditions and supplying water and nutriment to soil should be adapted in order to improve conditions for the trees growing.
引文
崔骁勇,陈佐忠,陈四清等,草地土壤呼吸研究进展,生态学报,2001,21(2):315-325.
SINGH J S ,GUPTA W H . Plant decomposition and soil respiration in terrestrial ecosystems[J]. Bot Rev, 1997,43:449-529.
李玉宁,王关玉,李伟 土壤呼吸作用和全球碳循环 地学前缘 2002.9(2):351-357.
Macfadyen A. Simplemethods for measuring and maintaining the proportion of carbon dioxide in air,for use in ecological studies of soil respiration.Soil Bio. Biochem, 1970,2:9-18.
李天杰,郑应顺,王云,土壤地理学,高等教育出版社,1983:62-72.
Hong J T.Jenkins G J.IPCC Climate Change [M].The IPCC Scientific Assessment.Cambridge,U K :Cambridge Univer-sityPress,1990:365.
赵可新,城市热岛效应现状与对策探讨,中国园林, 1999,444-445.
杨青,吕宪国,三江平原沼泽湿地生态试验区土壤类型及其特点.陈刚起.三江平原沼泽研究,北京:科学出版社,1996:15-26.
李凌浩,陈佐忠,草地群落的土壤呼吸,生态学杂志,1998,17(4):45-51.
赵景波,张晓龙,岳应利等,西安南郊春季土壤碳释放研究,干旱区地理,2002,25(3):208-213.
陈四清,崔骁勇等,内蒙古锡林河流域大针茅草原土壤呼吸河凋落物分解的CO2排放速率研究 ,植物学报 , 1999,41(6):645-650.
李凌浩,王其兵,白永飞等,锡林河流域羊草草原群落土壤呼吸及其影响因子的研究,植物生态学报,2000,24(6):680-686.
王娓,宋日,郭继勋,东北松嫩草原碱茅群落的土壤呼吸同枯枝落叶分解释放CO2贡献量研究,草业学报,2000,11(2):45-50.
刘绍辉,方精云等,北京山地温带森林的土壤呼吸,植物生态学报,1998,22(2):119-126.
陈素英,胡春胜,太行山前平原农田生态系统土壤呼吸速率的研究,生态农业研究,1997,5(2):42-46.
杨青,吕宪国,三江平原湿地生态系统土壤呼吸动态变化的初探,土壤通报,1999,30(6):254-256.
李兆富,吕宪国,杨青,高俊琴,三江平原小叶章湿地土壤的CO2通量,南京林业大学学报(自然科学版),2003,27(3):51-55.
冉景丞,何师意,曹建华等,亚热带喀斯特森林土壤CO2排放量动态研究,贵州科学,2002,20(2):42-48.
杜宝华,杨平,农田土壤二氧化碳释放问题的研究,水土保持研究,3(3):100-104.
Anja L.,Thomas K,and Olof A.,Carbon dioxide evoletion from top and subsoil as affected by moisture and constant and fluctuating tempereture.Soil Biol.Biochem.1998,30(14):2017-2022.
董云社,章申,齐玉春等,内蒙古典型草地CO2、N2O、CH4通量的同时观测及其日变化,科学通报.2000,45(3):318-322.
杨平,杜宝华,国外土壤二氧化碳释放问题的研究动态,中国农业气象,17(1):48-52.
Zak D R,Holmens W E.Mac Donald N Wet al.Soil temperature, matric potential,and the kinetics of microbial respiration and nitrogen mineralization [J].Soil Sci.Soc.Am.J.,1999,63:575-584.
戴万宏,刘军,王益权,赵磊,不同培肥措施下土壤CO2释放及其动力学研究,植物营养与肥料学报,2002,8(3):292-297.
C.L.Kucera et el.Soil Respiration Studies in Tallgrass Prairie in Missoui.Ecoligy,1971,Vol 52,No5:912-915.
Nakane K,Tsubota H and Yamamoto M,Cycling of soil carbon in a Japanese Red Pine Forest I,Before a clear felling.Bot.Mag,1984,97:39-60.
Mathes K and Schriefer Th.Soil respiration during secondary succession influences of temperature and moisture,Soil Biol,Biochem,1985,17(2):205-211.
Buyanovsky G A,et al.Soil respiration in a winter wheat ecosystem.Soil Sci,Soc,Am,I,1986,50:334-338.
刘绍辉,方精云,土壤呼吸的影响因素及全球尺度下温度的影响,生态学报,1997,17(5):469-475.
Witkamp M. Cycles of temperature and carbon dioxide from litter and soil.Ecology,1969,50:922-924.
Koizumi H,et al,Effects of carbon dioxide concentration on microbial respiration in soil,Ecol,Res,1991,6(3):227-232.
Harris D G and van Bavel C G M.Grow thyield and water absorption of tobacco plants as affected by the composition of the root atmosphere.Agron.J,1957a,49:182-184.
Harris D G and van Bavel C G M.Root respiration of tobacco,corn and cotton plants.Agron,1957b,49:182-184.
盖新敏,宁德地区林地土壤养分状况及肥力综合评价,林业科技开发,1994(4):16-19.
曹广民,李英年,张金霞,赵新全,环境因子对暗沃寒冬雏形土土壤CO2释放速率的影响,草地学报,2001,9(4):307-313.
耿元波,章申,董云社等.草原土壤的碳氮含量及其与温室气体通量的相关性.地理学报,2001,56(1):44-53.
Macdonald N.M.,Zak D.R.and Pregitzer K.S.,Temperature effects on kinetics of microbial respiration and net nitrogen and sulfur mineralization,Soil Sci.Soc.Am.J.,1995,59:233-240.
王立刚,邱建军,李维炯,黄淮海平原地区夏玉米农田土壤呼吸的动态研究,土壤肥料,2002(6):13-18.
李玉娥,林而达,天然草地利用方式改变对土壤排放CO2和吸收CH4的影响,农村生态环境,2000,16(2):14-16,44.
董云社,彭公炳,李俊,温带森林土壤排放CO2、CH4、N2O时空特征,地理学报,1996,51:120-129.
赵可新,城市热岛效应现状与对策探讨,中国园林,1999,4:44-45.
中国科学院南京土壤研究所, 土壤理化分析,上海科学技术出版社:466-467.
南京农学院,土壤农化分析,农业出版社:36-39.
刘凤枝,农业环境监测实用手册,中国标准出版社,2001,9.
李伟等,重庆园林土壤性状及分类研究[J],西南农业大学学报,1990,8(12):401-405.
张崇邦,杨靖春,东北羊草草原不同植被类型土壤微生物呼吸速率的初步研究,应用生态学报,1996,7(3):293-298.
Macdonald N.W.,Zak D.R.and Prregitzer K.S.,Temperature effects on kinetics of microbial respiration and net nitrogen sulfur mineralization.Soil Sci.Am.J.,1995,59:233-240
Edgar R Lemon.CO2 and plandts.1983:67-79
Witkamp M.and Frank M.L.,Evolution of CO2 from litter,humus and subsoil of a pine stand. Pedobiogia,1969,9:358-365.
毛学森,田魁祥,硬覆盖对农田生态系统影响的实验研究,农业现代化研究,1997,18(5):298-301.
韩军玲,陈宛农,许晓明等,长春市杨柳树死亡原因的调查研究,中国园林植保会, 2003,10.
Harris D G and van Bavel C G M.Growth yield and water absorption of tobacco plants as affected by the composition of the root atmosphere. Agron.J,1957a,49:182-184.
Harris D G and van Bavel C G M.Root respiration of tobacco,corn and cotton plants.Agron.J,1957b,49:182-184.
E. W. Russell 编,谭世文等译,土壤条件与植物生长,北京科学
出版社,1979:319.
梁永超,土壤通气性与植物根系代谢,土壤学进展,1994,22(3):34-39.
邹丽敏,丁蕴铮等,硬覆盖对城市街路行道树土壤呼吸的影响,中国城市林业,2004,2(1):34-37.
北京林业大学主编,土壤学,北京:中国林业出版社,1982:134.
赵景波,杜鹃等,西安地区土壤CO2释放量和释放规律,环境科学,2002,23(1):22-25.
吕建成,孙玉喜等,树木烂皮病的发生及防治研究,中国园林植保会,2003,10.
李嘉乐,张新理等,北京市公园古松柏生长衰弱原因及复壮措施的研究,北京市园林科学研究所.
毛学森,硬覆盖对盐渍土水盐运动及作物生长发育影响的研究,土壤通报,1998,29(6):264-266.
毛学森,曾江海,硬覆盖对土壤水热传输及作物生长发育影响的实验研究,生态学杂志,2000,19(2):68-71.
陈自新,许慈安译A. Bernatzky,树木生态与养护,中国建筑工业出版社,1987,6.
SINGH J S ,GUPTA W H . Plant decomposition and soil respiration in terrestrial ecosystems[J]. Bot Rev, 1997,43:449-529.
李玉宁,王关玉,李伟 土壤呼吸作用和全球碳循环 地学前缘 2002.9(2):351-357.
Macfadyen A. Simplemethods for measuring and maintaining the proportion of carbon dioxide in air,for use in ecological studies of soil respiration.Soil Bio. Biochem, 1970,2:9-18.
李天杰,郑应顺,王云,土壤地理学,高等教育出版社,1983:62-72.
Hong J T.Jenkins G J.IPCC Climate Change [M].The IPCC Scientific Assessment.Cambridge,U K :Cambridge Univer-sityPress,1990:365.
赵可新,城市热岛效应现状与对策探讨,中国园林, 1999,444-445.
杨青,吕宪国,三江平原沼泽湿地生态试验区土壤类型及其特点.陈刚起.三江平原沼泽研究,北京:科学出版社,1996:15-26.
李凌浩,陈佐忠,草地群落的土壤呼吸,生态学杂志,1998,17(4):45-51.
赵景波,张晓龙,岳应利等,西安南郊春季土壤碳释放研究,干旱区地理,2002,25(3):208-213.
陈四清,崔骁勇等,内蒙古锡林河流域大针茅草原土壤呼吸河凋落物分解的CO2排放速率研究 ,植物学报 , 1999,41(6):645-650.
李凌浩,王其兵,白永飞等,锡林河流域羊草草原群落土壤呼吸及其影响因子的研究,植物生态学报,2000,24(6):680-686.
王娓,宋日,郭继勋,东北松嫩草原碱茅群落的土壤呼吸同枯枝落叶分解释放CO2贡献量研究,草业学报,2000,11(2):45-50.
刘绍辉,方精云等,北京山地温带森林的土壤呼吸,植物生态学报,1998,22(2):119-126.
陈素英,胡春胜,太行山前平原农田生态系统土壤呼吸速率的研究,生态农业研究,1997,5(2):42-46.
杨青,吕宪国,三江平原湿地生态系统土壤呼吸动态变化的初探,土壤通报,1999,30(6):254-256.
李兆富,吕宪国,杨青,高俊琴,三江平原小叶章湿地土壤的CO2通量,南京林业大学学报(自然科学版),2003,27(3):51-55.
冉景丞,何师意,曹建华等,亚热带喀斯特森林土壤CO2排放量动态研究,贵州科学,2002,20(2):42-48.
杜宝华,杨平,农田土壤二氧化碳释放问题的研究,水土保持研究,3(3):100-104.
Anja L.,Thomas K,and Olof A.,Carbon dioxide evoletion from top and subsoil as affected by moisture and constant and fluctuating tempereture.Soil Biol.Biochem.1998,30(14):2017-2022.
董云社,章申,齐玉春等,内蒙古典型草地CO2、N2O、CH4通量的同时观测及其日变化,科学通报.2000,45(3):318-322.
杨平,杜宝华,国外土壤二氧化碳释放问题的研究动态,中国农业气象,17(1):48-52.
Zak D R,Holmens W E.Mac Donald N Wet al.Soil temperature, matric potential,and the kinetics of microbial respiration and nitrogen mineralization [J].Soil Sci.Soc.Am.J.,1999,63:575-584.
戴万宏,刘军,王益权,赵磊,不同培肥措施下土壤CO2释放及其动力学研究,植物营养与肥料学报,2002,8(3):292-297.
C.L.Kucera et el.Soil Respiration Studies in Tallgrass Prairie in Missoui.Ecoligy,1971,Vol 52,No5:912-915.
Nakane K,Tsubota H and Yamamoto M,Cycling of soil carbon in a Japanese Red Pine Forest I,Before a clear felling.Bot.Mag,1984,97:39-60.
Mathes K and Schriefer Th.Soil respiration during secondary succession influences of temperature and moisture,Soil Biol,Biochem,1985,17(2):205-211.
Buyanovsky G A,et al.Soil respiration in a winter wheat ecosystem.Soil Sci,Soc,Am,I,1986,50:334-338.
刘绍辉,方精云,土壤呼吸的影响因素及全球尺度下温度的影响,生态学报,1997,17(5):469-475.
Witkamp M. Cycles of temperature and carbon dioxide from litter and soil.Ecology,1969,50:922-924.
Koizumi H,et al,Effects of carbon dioxide concentration on microbial respiration in soil,Ecol,Res,1991,6(3):227-232.
Harris D G and van Bavel C G M.Grow thyield and water absorption of tobacco plants as affected by the composition of the root atmosphere.Agron.J,1957a,49:182-184.
Harris D G and van Bavel C G M.Root respiration of tobacco,corn and cotton plants.Agron,1957b,49:182-184.
盖新敏,宁德地区林地土壤养分状况及肥力综合评价,林业科技开发,1994(4):16-19.
曹广民,李英年,张金霞,赵新全,环境因子对暗沃寒冬雏形土土壤CO2释放速率的影响,草地学报,2001,9(4):307-313.
耿元波,章申,董云社等.草原土壤的碳氮含量及其与温室气体通量的相关性.地理学报,2001,56(1):44-53.
Macdonald N.M.,Zak D.R.and Pregitzer K.S.,Temperature effects on kinetics of microbial respiration and net nitrogen and sulfur mineralization,Soil Sci.Soc.Am.J.,1995,59:233-240.
王立刚,邱建军,李维炯,黄淮海平原地区夏玉米农田土壤呼吸的动态研究,土壤肥料,2002(6):13-18.
李玉娥,林而达,天然草地利用方式改变对土壤排放CO2和吸收CH4的影响,农村生态环境,2000,16(2):14-16,44.
董云社,彭公炳,李俊,温带森林土壤排放CO2、CH4、N2O时空特征,地理学报,1996,51:120-129.
赵可新,城市热岛效应现状与对策探讨,中国园林,1999,4:44-45.
中国科学院南京土壤研究所, 土壤理化分析,上海科学技术出版社:466-467.
南京农学院,土壤农化分析,农业出版社:36-39.
刘凤枝,农业环境监测实用手册,中国标准出版社,2001,9.
李伟等,重庆园林土壤性状及分类研究[J],西南农业大学学报,1990,8(12):401-405.
张崇邦,杨靖春,东北羊草草原不同植被类型土壤微生物呼吸速率的初步研究,应用生态学报,1996,7(3):293-298.
Macdonald N.W.,Zak D.R.and Prregitzer K.S.,Temperature effects on kinetics of microbial respiration and net nitrogen sulfur mineralization.Soil Sci.Am.J.,1995,59:233-240
Edgar R Lemon.CO2 and plandts.1983:67-79
Witkamp M.and Frank M.L.,Evolution of CO2 from litter,humus and subsoil of a pine stand. Pedobiogia,1969,9:358-365.
毛学森,田魁祥,硬覆盖对农田生态系统影响的实验研究,农业现代化研究,1997,18(5):298-301.
韩军玲,陈宛农,许晓明等,长春市杨柳树死亡原因的调查研究,中国园林植保会, 2003,10.
Harris D G and van Bavel C G M.Growth yield and water absorption of tobacco plants as affected by the composition of the root atmosphere. Agron.J,1957a,49:182-184.
Harris D G and van Bavel C G M.Root respiration of tobacco,corn and cotton plants.Agron.J,1957b,49:182-184.
E. W. Russell 编,谭世文等译,土壤条件与植物生长,北京科学
出版社,1979:319.
梁永超,土壤通气性与植物根系代谢,土壤学进展,1994,22(3):34-39.
邹丽敏,丁蕴铮等,硬覆盖对城市街路行道树土壤呼吸的影响,中国城市林业,2004,2(1):34-37.
北京林业大学主编,土壤学,北京:中国林业出版社,1982:134.
赵景波,杜鹃等,西安地区土壤CO2释放量和释放规律,环境科学,2002,23(1):22-25.
吕建成,孙玉喜等,树木烂皮病的发生及防治研究,中国园林植保会,2003,10.
李嘉乐,张新理等,北京市公园古松柏生长衰弱原因及复壮措施的研究,北京市园林科学研究所.
毛学森,硬覆盖对盐渍土水盐运动及作物生长发育影响的研究,土壤通报,1998,29(6):264-266.
毛学森,曾江海,硬覆盖对土壤水热传输及作物生长发育影响的实验研究,生态学杂志,2000,19(2):68-71.
陈自新,许慈安译A. Bernatzky,树木生态与养护,中国建筑工业出版社,1987,6.