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The Chemistry and Fertility of Soils under Tropical Weeds   65



                           nutrient medium.  Frankenberger and Johanson (1982) also show the dependence
                           of  other  enzymes  i.e.  urease  and  phosphodiesterase  activities  on  soil  pH.    The
                           activities  of  soil  enzymes  may  change  accordingly  as  a  result  of  ionization  and
                           deionization of the functional sites of the enzyme proteins with the increase in soil
                           pH.
                              This  behavior  was  clearly  demonstrated  by  phosphatases  in  tropical  soils.
                           Salam et al. (1998b) treated tropical soil samples of some deforested locations in
                           West Lampung, Indonesia, at a series of buffered pH of 3 to 12.  The results are
                           shown in Fig. 4.3.  Similar patterns were also documented by Trasar-Cepeda et al.
                           (1991)  and  Nakas  et  al.  (1987).    Ekenler  and  Tabatabai  (2003)  suggest  that  acid
                           phosphatase was the most sensitive and arylsulfatase the least sensitive to changes
                           in soil pH.




                                     500
                                 Act. of Phosphatase  (mg p-Nitrofenol g-1 h-1)   300  Primary Forest
                                     400



                                                                            Secondary Forest
                                     200
                                                                            Coffee Plantation
                                     100

                                       0                                    Cultivated Land
                                           3 4 5 6 7 8 9 10 11 12
                                                     pH

                           Fig. 4.3.  The relationship between phosphatase activity and pH in soils of different land-
                                  uses from West Lampung Indonesia (Adapted from Salam et al., 1998b).


                              Salam  (2014)  argues  that  the  lower  activity  of  phosphatase  at  low  pH  is
                                                          +
                           probably  due  to  the  ionization  of  H   ion  on  the  functional  groups  of  enzyme
                           proteins.    As  the  soil  pH  rises,  the  ionization  of  enzyme  functional  groups
                           progresses and so does the activity of phosphatase.  At this range of soil pH, the
                           activity  of  phosphatase  increases  with  the  increase  in  soil  pH  until  the  related

                                                          Abdul Kadir Salam and Nanik Sriyani  – 2019
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