杜珊,段文标,王丽霞,等. 2013. 红松阔叶混交林中坑和丘的微立地特征及其对植被更新的影响. 应用生态学报, 24(3): 633-638.
(Du S, Duan W B, Wang L X, et al. 2013. Microsite characteristics of pit and mound and their effects on the vegetation regeneration in Pinus koraiensis-dominated broadleaved mixed forest. Chinese Journal of Applied Ecology, 24(3): 633-638. [in Chinese] )
段文标,杜珊, 陈立新,等. 2013a. 阔叶红松混交林林隙大小和掘根微立地对小气候的影响. 应用生态学报, 24(8): 2097-2105.
(Duan W B, Du S, Chen L X, et al. 2013a. Effects of forest gap size and uprooted microsite on the microclimate in Pinus koraiensis-dominated broad-leaved mixed forest. Chinese Journal of Applied Ecology, 24(8): 2097-2105. [in Chinese] )
段文标,冯静,陈立新. 2012. 阔叶红松混交林不同大小林隙土壤含水量的时空异质性. 林业科学研究,25(3):385-393.
(Duan W B, Feng J, Chen L X. 2012. Spatiotemporal heterogeneity of soil water content at different size of gaps of Pinus koraiensis-dominated broadleaved mixed forest. Forest Research, 25(3):385-393. [in Chinese] )
段文标,王丽霞,陈立新,等. 2013b. 红松阔叶混交林林隙大小及光照对草本植物的影响. 应用生态学报,24(3): 614-620.
(Duan W B, Wang L X, Chen L X, et al. 2013b. Effects of forest gap size and light intensity on herbaceous plants in Pinus koraiensis-dominated broadleaved mixed forest. Chinese Journal of Applied Ecology, 24(3): 614-620. [in Chinese] )
方华军,杨学明,张晓平,等. 2006. 东北黑土区坡耕地表层土壤颗粒有机碳和团聚体结合碳的空间分布. 生态学报,26(9):2847-2854.
(Fang H J, Yang X M, Zhang X P, et al. 2006. Spatial distribution of particulate organic carbon and aggregate associated carbon in topsoil of a sloping farmland in the black soil region, Northeast China. Acta Ecologica Sinica, 26(9):2847-2854. [in Chinese] )
冯静,段文标,陈立新. 2012. 阔叶红松混交林林隙大小和林隙内位置对小气候的影响. 应用生态学报,23(7):1758-1766.
(Feng J, Duan W B, Chen L X, et al. 2012. Effects of forest gap size and within-gap position on the microclimate in Pinus koraiensis-dominated broadleaved mixed forest. Chinese Journal of Applied Ecology, 23(7):1758-1766. [in Chinese] )
黄昌勇. 2000. 土壤学. 北京: 中国农业出版社.
姬强,孙汉印,王勇,等. 2012. 土壤颗粒有机碳和矿质结合有机碳对4种耕作措施的响应. 水土保持学报, 26(2):132-137.
(Ji Q, Sun H Y, Wang Y, et al. 2012. Responses of soil particulate organic carbon and mineral-bound organic carbon to four kinds of tillage practices. Journal of Soil and Water Conservation, 26(2):132-137. [in Chinese] )
李亮亮,依艳丽,凌国鑫,等. 2005. 地统计学在土壤空间变异研究中的应用. 土壤通报,36(2):265-268.
(Li L L, Yi Y L, Ling G X, et al. 2005. Utilization of geostatistics in soil spatial variability. Chinese Journal of Soil Science, 36(2):265-268. [in Chinese] )
李猛,段文标,陈立新. 2009. 红松阔叶混交林林隙PPFD、气温、空气相对湿度时空分布格局. 应用生态学报, 20(12):2853-2860.
(Li M, Duan W B, Chen L X. 2009. Spatiotemporal distribution patterns of photosynthetic photon flux density,air temperature,and relative air humidity in forest gap of Pinus koraiensis-dominated broadleaved mixed forest in Xiao Xing'an Mountains. Chinese Journal of Applied Ecology, 20(12):2853-2860. [in Chinese] )
李猛,段文标,陈立新. 2011. 红松阔叶混交林林隙光量子通量密度时空分布格局.应用生态学报,22(4):880-884.
(Li M, Duan W B, Chen L X. 2011. Spatiotemporal distribution pattern of photosynthetic photon flux density in forest gaps of Korean pine broadleaved mixed forest. Chinese Journal of Applied Ecology, 22(4):880-884. [in Chinese] )
李猛,刘洋,段文标. 2013. 红松阔叶混交林林隙浅层土壤温度的异质性. 生态学杂志, 32(2):319-324.
(Li M, Liu Y, Duan W B. 2013. Heterogeneity of shallow soil temperature in the forest gaps of Pinus koraiensis-dominated broadleaved mixed forest. Chinese Journal of Ecology, 32(2):319-324. [in Chinese] )
刘少冲,段文标. 2011a. 红松阔叶混交林林隙土壤养分的空间异质性. 水土保持学报,25(3):142-146.
(Liu S C, Duan W B. 2011a. Spatial heterogeneity of soil nutrition in the mixed broad-leaved korean pine forest gap. Journal of Soil Water Conservation, 25(3):142-146. [in Chinese] )
刘少冲,段文标,冯静,等. 2011b. 林隙对小兴安岭阔叶红松林树种更新及物种多样性的影响. 应用生态学报,22(6):1381-1388.
(Liu S C, Duan W B, Feng J, et al. 2011b. Effects of forest gap on tree species regeneration and diversity of mixed broadleaved Korean pine forest in Xiaoxing'an Mountains. Chinese Journal of Applied Ecology, 22(6):1381-1388. [in Chinese] )
刘少冲, 段文标, 钟春艳,等. 2012. 阔叶红松林不同大小林隙土壤温度、水分、养分及微生物动态变化. 水土保持学报,26(5):78-83, 89.
(Liu S C, Duan W B, Zhong C Y, et al. 2012. Dynamic changes in soil temperature,water content,nutrition and microorganisms of different size gaps in the mixed broadleaved korean pine forest. Journal of Soil and Water Conservation, 26(5):78-83, 89. [in Chinese] )
鲁如坤. 1990. 土壤农业化学分析方法. 北京: 中国农业科技出版社,107-108.
苏永中,赵哈林. 2003. 农田沙漠化过程中土壤有机碳和氮的衰减及其机理研究. 中国农业科学,36(8):928-934.
(Su Y Z, Zhao H L. 2003. Losses of soil organic carbon and nitrogen and their mechanisms in the desertification process of sandy farmlands in horqin sandy land. Scientia Agricultura Sinica, 36(8):928-934. [in Chinese] )
王存国,韩士杰,张军辉,等. 2010. 长白山阔叶红松林表层土壤水分空间异质性的地统计学分析. 应用生态学报,21(4):849-855.
(Wang C G, Han S J, Zhang J H, et al. 2010. Spatial heterogeneity of surface soil moisture in a broad-leaved Korean pine forest in Changbai Mountains based on geostatistic analysis. Chinese Journal of Applied Ecology, 21(4):849-855. [in Chinese] )
王丽霞,段文标,陈立新,等. 2013. 红松阔叶混交林林隙大小对土壤水分空间异质性的影响. 应用生态学报, 24(1): 17-24.
(Wang L X, Duan W B, Chen L X, et al. 2013. Effects of gap size on the spatial heterogeneity of soil water in Pinus koraiensis-dominated broad-leaved mixed forest. Chinese Journal of Applied Ecology, 24(1): 17-24. [in Chinese] )
王清奎,汪思龙,冯宗炜,等. 2005. 土壤活性有机质及其与土壤质量的关系. 生态学报,25(3):513-519.
(Wang Q K, Wang S L, Feng Z W, et al. 2005. Active soil organic matter and its relationship with soil quality. Acta Ecologica Sinica, 25(3):513-519. [in Chinese] )
王阳. 2011. 不同类型林地土壤颗粒态有机碳和黑碳的分布特征. 浙江大学学报: 农业与生命科学版,37(2):193-202.
(Wang Y. 2011. Distribution characters of particulate organic carbon and black carbon in soils under different forestry vegetations. Journal of Zhejiang University(Agriculture and Life Sciences), 37(2):193-202. [in Chinese] )
王政权. 1999. 地统计学及在生态学中的应用. 北京: 科学出版社.
杨长明,欧阳竹,杨林章,等. 2006. 农业土地利用方式对华北平原土壤有机碳组分和团聚体稳定性的影响. 生态学报,26(12):4148-4155.
(Yang C M, Ouyang Z, Yang L Z, et al. 2006. Organic carbon fractions and aggregate stability in an aquatic soil as influenced by agricultural land uses in the Northern China Plain. Acta Ecologica Sinica, 26(12):4148-4155. [in Chinese] )
于建光,李辉信,胡锋,等. 2006. 施用秸秆及接种蚯蚓对土壤颗粒有机碳及矿物结合有机碳的影响. 生态环境, 15(3):606-610.
(Yu J G, Li H X, Hu F, et al. 2006. Effects of straw application and earthworm inoculation on soil particulate organic carbon and mineral-associated organic carbon. Ecology and Environment, 15(3):606-610. [in Chinese] )
周美珩,段文标,陈立新,等. 2013. 阔叶红松林林隙对凋落物碳和氮的影响. 安徽农业科学,4(27): 11035-11037, 11104.
(Zhou M H, Duan W B, Chen L X, et al. 2013. Effects of forest gaps on litter carbon,nitrogen in broad-leaved korean pine forest. Journal of Anhui Agricultural Sciences, 4(27): 11035-11037, 11104. [in Chinese] )
Cambardella C A, Elliott E T. 1992. Particulate soil organic-matter changes across a grassland cultivation sequence. Soil Science Society of America Journal, 56(3):777-778.
Golchin A, Oades J M, Skjemstd J O, et al. 1994. Soil structure and carbon cycling. Australian Journal of Soil Research, 32(5):1043-1068.
Gregorich E G, Beare M H, Stoklas U, et al. 2003. Biodegradability of soluble organic matter in maize-cropped soils. Geoderma, 113(3/4):237-252.
Lee S B, Lee C H, Jung K Y, et al. 2009. Changes of soil organic carbon and its fractions in relation to soil physical properties in a long term fertilized paddy. Soil and Tillage Research, 104(2):227-232.
Puget P, Chenu C, Balesdent J. 2000. Dynamics of soil organic matter associated with particle-size fractions of water stable aggregates. European Journal of Soil Science, 51(4):595-605. |