NEAR-INFRARED CHARACTERISTICS OF FOREST HUMUS ARE CORRELATED WITH SOIL RESPIRATION AND MICROBIAL BIOMASS IN BURNT SOIL

被引:24
|
作者
FRITZE, H
JARVINEN, P
HIUKKA, R
机构
[1] Department of Forest Ecology, Finhish Forest Research Institute, Vantaa, FIN-01301
来源
BIOLOGY AND FERTILITY OF SOILS | 1994年 / 18卷 / 01期
关键词
BIOLOGICAL VARIATION; CONIFEROUS FOREST; NEAR-INFRARED SPECTRUM; PARTIAL LEAST-SQUARE REGRESSION; MICROBIAL BIOMASS; SOIL RESPIRATION;
D O I
10.1007/BF00336449
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
Near-infrared spectroscopy and soil physicochemical determinations (pHH2O, organic matter content, total C content, NH4+, total N content, cation-exchange capacity, and base saturation) were used to characterize fire- or wood ash-treated humus samples. The spectroscopic and the soil physicochemical analysis data from the humus samples were used separately to explain observed variations in soil respiration and microbial biomass C by partial least-square regression. The first regression component obtained from the physicochemical and spectroscopic characterization explained 10-12% and 60-80% of the biological variation, respectively. This suggests that information on organic material collected from near-infrared spectra is very useful for explaining biological variations in forest humus.
引用
收藏
页码:80 / 82
页数:3
相关论文
共 50 条
  • [41] The potential of near-infrared reflectance spectroscopy to analyse soil chemical and physical characteristics
    Cozzolino, D
    Morón, A
    JOURNAL OF AGRICULTURAL SCIENCE, 2003, 140 : 65 - 71
  • [42] Soil microbial biomass and activity: the effect of site characteristics in humid temperate forest ecosystems
    Friedel, JK
    Ehrmann, O
    Pfeffer, M
    Stemmer, M
    Vollmer, T
    Sommer, M
    JOURNAL OF PLANT NUTRITION AND SOIL SCIENCE, 2006, 169 (02) : 175 - 184
  • [43] THE INFLUENCE OF SOIL-MOISTURE ON UREA HYDROLYSIS AND MICROBIAL RESPIRATION IN JACK PINE HUMUS
    FOSTER, NW
    BEAUCHAMP, EG
    CORKE, CT
    CANADIAN JOURNAL OF SOIL SCIENCE, 1980, 60 (04) : 675 - 684
  • [44] Soil respiration is not limited by reductions in microbial biomass during long-term soil incubations
    Birge, Hannah E.
    Conant, Richard T.
    Follett, Ronald F.
    Haddix, Michelle L.
    Morris, Sherri J.
    Snapp, Sieglinde S.
    Wallenstein, Matthew D.
    Paul, Eldor A.
    SOIL BIOLOGY & BIOCHEMISTRY, 2015, 81 : 304 - 310
  • [45] Response of Soil Respiration and Microbial Biomass to Drying and Rewetting Is Greater in Planted than in Unplanted Soil
    Elmajdoub, B.
    Marschner, P.
    JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION, 2021, 21 (04) : 2765 - 2769
  • [46] Response of Soil Respiration and Microbial Biomass to Drying and Rewetting Is Greater in Planted than in Unplanted Soil
    B. Elmajdoub
    P. Marschner
    Journal of Soil Science and Plant Nutrition, 2021, 21 : 2765 - 2769
  • [47] Basal rates of soil respiration are correlated with photosynthesis in a mixed temperate forest
    Sampson, D. A.
    Janssens, I. A.
    Yuste, J. Curiel
    Ceulemans, R.
    GLOBAL CHANGE BIOLOGY, 2007, 13 (09) : 2008 - 2017
  • [48] Application of compost in spruce forests: effects on soil respiration, basal respiration and microbial biomass
    Borken, W
    Muhs, A
    Beese, F
    FOREST ECOLOGY AND MANAGEMENT, 2002, 159 (1-2) : 49 - 58
  • [49] A near-infrared optical nanosensor for measuring aerobic respiration in microbial systems
    Saccomano, Samuel C.
    Cash, Kevin J.
    ANALYST, 2021, 147 (01) : 120 - 129
  • [50] Dynamics of humus forms and soil characteristics along a forest altitudinal gradient in Hyrcanian forest
    Bayranvand, Mohammad
    Akbarinia, Moslem
    Jouzani, Gholamreza Salehi
    Gharechahi, Javad
    Alberti, Giorgio
    IFOREST-BIOGEOSCIENCES AND FORESTRY, 2021, 14 : 26 - 33
12345