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The Chemistry and Fertility of Soils under Tropical Weeds   129



                           increased the soil exchangeable K.  However, the absorption of K by these weeds
                           was more intensive than was by A. pintoi.




                              Table 7.6.  The relative changes in soil exchangeable K as affected by weed roots.

                                                                         1)
                                                                   Weeds
                               Soils    Layers    Ag        Ap        W        Pc        Pp
                                                                             2)
                                                               % of initial contents

                            Jabung     Topsoil    72.2     114.0     75.0      83.3     44.4


                                       Subsoil    65.5     93.1      58.6      69.0     38.0


                            Tanjung    Topsoil    88.9     145.0     66.7      55.6     33.3
                            Bintang
                                       Subsoil    85.7     85.7      42.9      28.6     28.6

                                 Average          78.1     110.0     60.8      59.1     36.1

                           1)  Ag Asystacia gangetica, Ap Arachis pintoi, W Widelia sp., Pc Paspalum conjugatum, and
                              Pp Pennisetum purpureum
                                                                                   -1
                           2)  Initial topsoil and subsoil exchangeable K were 0.36 and 0.29 cmol c  kg , respectively,
                                                               -1
                              for soil of Jabung and 0.09 and 0.07 cmol c  kg , respectively, for soil of Tanjung Bintang



                              The change in the soil exchangeable K ( Exch. K), assumed to be part of K that
                           was absorbed by weeds, was found to be well-correlated with the weed shoot dry-
                           weight with relatively high correlation coefficients, ranging from 0.58 to 0.89 (Table
                           7.7), and except in the subsoils of Tanjung Bintang, was also well-correlated with
                           the weed root dry-weight also with relatively high correlation coefficients, ranging
                           from 0.60 to 0.87 (Table 7.8).   Exch. K was calculated as follows:

                               Exch. K = Final Exch. K (After Planting) – Initial Exch K (Before Planting)   …….   Eq. 7.3


                                                          Abdul Kadir Salam and Nanik Sriyani  – 2019
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