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116   The Chemistry and Fertility of Soils under Tropical Weeds



                              The structural K in the soil minerals is more difficult to release.  This element is
                           released through mineral weathering which is controlled by several factors among
                           which  are  soil  pH  and  soil  moisture.    As  those  for  all  primary  minerals,  the
                                                                                              +
                           weathering of K containing minerals is enhanced by the presence of water and H
                           ion.  Therefore, the release of K from soil minerals can be enhanced by lowering
                                                                                      +
                           soil  pH  in  the  presence  of  water.    The  elimination  of  the  released  K   from  soil
                           solution  through  some  mechanisms  like  plant  root  absorption  and  leaching  may
                           also speed up the mineral weathering.
                              The weathering of orthoclase (KAlSi 3 O 8 ) may exemplify the above mechanisms.
                           The weathering of this K-mineral as shown in Fig 1 may progress in the presence of
                                             +
                           water molecule and H  ion.  Following the mass action law, the reaction may speed
                                                                                      +
                           up in the presence of high amounts of water molecule (moist soils) and H  ion (acid
                                                      +                 3+
                           soils) and low concentration of K  (and also those of Al  and Si(OH) 4 ).  This means
                           that the weathering process can be enhanced by moistening the soil sample and/or
                                                             +           3+
                           lowering the soil pH and/or eliminating K  (and also Al  and Si(OH) 4 ).  However,
                           intensive weathering of orthoclase may end up with the existence of more stable
                           secondary minerals not containing K, like montmorillonite, kaolinite, and gibbsite.



                                                                              3+
                                                                     +
                                                    +
                                   KAlSi 3 O 8  + 4 H 2 O + 4 H     K      +  Al   +  3 Si(OH) 4
                                      Primary Mineral:
                                    Orthoclase/K-Feldspar


                                       Low [Si(OH) 4]                    High [Si(OH) 4]:
                                                                       3+
                                       3+
                                     Al +3 H 2 O                  2 Al  + 2 Si(OH) 4 + H 2O  
                                       3H +Al(OH) 3                    6 H  +  Al 2Si 2O 5(OH) 4
                                                                         +
                                         +
                                  Secondary Mineral: Gibbsite        Secondary Mineral: Kaolinite

                                        Gibbsite
                                  Al 2 Si 2 O 5 (OH) 4  + 5 H 2 O  
                                   3 Si(OH) 4   + 2 Al(OH) 3
                                      Secondary Mineral:         More Intensive Weathering:
                                     Kaolinite    Gibbsite      Si(OH) 4 leached




                                                  +
                               Fig. 7.1.  The release of K  in the weathering of K-containing primary minerals.
                           Abdul Kadir Salam and Nanik Sriyani – 2019
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