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5 International Scientific Online Conference   DOI: https://doi.org/10.15414/2021.9788055224015

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                MICROBIOLOGICAL TOOLS FOR EFFECTIVE ASSESSMENT AND PREDICTION OF THE
                            IMPACT OF SOIL MANAGEMENT ON SOIL ORGANIC MATTER
                                  Serghei Corcimaru, Lilia Mereniuc, Feodora Sitnic
                         Institute of Microbiology and Biotechnology, Chisinau, Republic of Moldova;
                                          E-mail.:  sergheicorcimaru@hotmail.com
                  Efficient tools for the assessment and prediction of impacts on soil organic matter (SOM)
             are necessary for the development of sustainable management practices aimed at maintaining
             and enhancing soil biodiversity. The usefulness of direct SOM measurements in these matters
             is constrained by the impossibility of establishing experimentally verifiable changes within a
             relatively  short  time.  Soil  microbial  biomass  (SMB)  is  among  the  most  promising  tools  for
             timely detection and prediction of changes in SOM induced by soil management. The purpose
             of this  work was  to  make use of the  advantages  of long-term field experiments to  identify
             microbial parameters that could be used as an effective tool for SOM-related assessments and
             predictions. The long-term field experiments of the study included 2 soil types (the moderately
             and the poorly humified Typical chernozems), 6 traditional (10-field) and 5 ecological (7-field)
             crop  rotations  with  and  without  alfalfa,  mineral  fertilizers  and/or  farmyard  manure;
             continuous  black  fallow  and  5  continuous  crops  with  and  without  mineral  fertilizers  with
             farmyard  manure.  Soil  samples  were  collected  in  the  springtime  from  a  depth  of  0-20  cm;
             passed  through  a  2  mm  sieve  and  plant  material,  stones  and  visible  organisms  removed
             manually; adjusted to 40 percent water holding capacity and pre-incubated for 10 days at 25 C
                                                                                                           o
             in the dark, in aerated plastic bags with periodic adjustment of moisture. SOM was determined
             by  dichromate  oxidation  followed  by  back  titration  of  the  excess  dichromate.  SMB  was
             determined by substrate-induced respiration and/or fumigation-extraction. Basal respiration
             was determined by using IRGA or gas chromatography. Metabolic quotient was calculated as
             basal respiration expressed per unit of SMB carbon, and microbial quotient was expressed as
             the percentage of SMB carbon to the total soil organic carbon.
                  Significant correlations between SOM and soil microbial parameters (SMB, and/or basal
            respiration, and/or metabolic quotient) were observed in the moderately and poorly humified
            Typical  chernozems  of  the  studied  long-term  field  experiments.  These  correlations
            demonstrated that with time-specific relationships between SOM and SMB related parameters
            are reached in the chernozem soils of Moldova, relationships that remain the same across a wide
            range of experimental variants with different levels of SOM and SMB, and are conditioned by
            peculiarities of soil management. These correlations as well as the difference in the turnover
            rates between SMB and SOM permit a practical possibility of using SMB as a tool for SOM-related
            assessments and predictions. Once a new soil management practice is introduced and SMB is
            allowed  sufficient  time  (comparable  to  the  SMB  turnover  rates)  to  approach  the  new
            equilibrium  determined  by  peculiarities  of  this  practice,  the  quantitative  prediction  of  the
            future SOM level becomes predictable from the new microbial parameters and the established
            correlational  relationship  (assuming  that  given  enough  time  SOM  will  tend  to  fit  the  same
            correlational  relationship  that  was  observable  in  the  long-term  field  experiments).  These
            predictions may be beneficial in such important fields as protection and enhancement of soil
            quality  and  biodiversity,  carbon  sequestration,  development/assessment  of  sustainable  soil
            management practices, and others. The implementation of the possibility will provide farmers
            with better opportunities for investing in soil quality/biodiversity and will contribute to solving
            problems related to climate change and others.

            Keywords: soil microbial biomass, soil organic matter, soil biodiversity, soil quality prediction.
            Acknowledgments
             The results were partially obtained within a research project with financial support awarded by the
             Global Soil Partnership of the Food and Agriculture Organization of the United Nations.



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             5 International Scientific Conference Agrobiodiversity for Improving the Nutrition, Health, Quality of Life and  |39
                                               Spiritual Human Development
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