Keberadaan mineral short-range-orders seperti alofan, imogolit, dan Fe/Al-oksida membuat Andisol memiliki tingkat adsorpsi P yang tinggi, tetapi upaya untuk mengurangi jumlah adsorpsi P oleh anion organik dan anorganik belum banyak dipelajari. Penelitian ini membandingkan perkembangan tanah di ketiga lokasi gunung serta kemampuan asam humat, asam fulvat dan sulfat dalam menghambat adsorpsi P oleh mineral amorf andisol gunung Dieng, Merbabu, dan Sumbing. Hasil menunjukkan klasifikasi pada tiga lokasi pengambilan sampel, memiliki perbedaan klasifikasi pada kelas epipedon, pada lokasi gunung Dieng dan Merbabu masuk kedalam klasifikasi epipedon molik sedangkan pada lokasi gunung Sumbing masuk epipedon okrik. Perbedaan klasifikasi di tingkat epipedon diduga karena adanya perbedaan sistem pengelolaan lahan, di gunung Dieng dan Merbabu dengan sistem pengelolaan lahan yang intensif menjadikan epipedon lebih berkembang daripada di lokasi gunung Sumbing yang masuk kedalam penggunaan lahan hutan alami. Nilai berat volume pada setiap lokasi berkisar antara 0,84 – 0,89 g/cm-3, hasil analisis kimia tanah meliputi pH H2O 6,13 – 6,97, dan pH NaF > 10,00. Karbon organik tertinggi terdapat di gunung Sumbing (4800 mg/kg-1), dan KPK 18,60 cmol(-) kg-1 terdapat di gunung Merbabu. Rasio Si/Al terkecil adalah 2,29% terdapat di gunung Sumbing, Gunung Merbabu memiliki nilai % ferrihidrit tertinggi yaitu (3,05%), dan % alofan + immogolit tertinggi di gunung Sumbing (7,17%). Penambahan asam humat dan asam fulvat mempengaruhi jumlah penyerapan P di gunung Merbabu, sedangkan sulfat sebaliknya, dengan penambahan asam humat, fulvat dan sulfat tidak mampu mengurangi adsorpsi P pada lokasi gunung Dieng dan Sumbing, hal ini diduga karena dosis 100 mg.L-1 asam humat, fulvat dan sulfat tidak mampu bersaing dengan PO4 di lokasi karena adsorpsi P termasuk inner sphare complex, sedangkan anion yang menggantikan termasuk dalam outer sphare complex.

The existence of short-range-orders mineral as alofan, imogolit, and Fe/Al-oxide makes Andisol highly adsorption, but attempts to reduce the amount of adsorption P by organic and inorganic anions widely unstudied yet. This research compares This study compared the soil development at the three mountain locations and the ability of humic, fulvic and sulfuric acids to inhibit P adsorption by the amorphous andisol minerals of Dieng, Merbabu, and Sumbing mountains. The results showed that the classification at the three sampling locations, had different classifications in the epipedon class, at the Dieng and Merbabu mountain locations it was classified as a molic epipedon while at the Sumbing mountain location it was an okric epipedon. The difference in classification at the epipedon level is thought to be due to differences in land management systems, in Mount Dieng and Merbabu with an intensive land management system, making the epipedon more developed than in the location of Mount Sumbing which is included in the use of natural forest land. The results of on-site bulk density are 0.84 to 0.89 g/cm-3, the results of soil chemical characterization including pH of H2O is 6.13 to 6.97, and the pH of NaF is > 10.00. The highest organic carbon was in Mt. Sumbing (4800 mg/kg1), and the highest CEC was 18.60 cmol(-) kg-1 in Mt. Merbabu. The smallest Si/Al ratio is 2.29% in Mt. Sumbing, Mt. Merbabu has the highest calculated value of ferrihydrite (3.05%), and the % allophane + immogolite highest in Mount Sumbing (7.17%). Add of humic and fulvic acid affected the amount of P adsorption in Mt. Merbabu, while sulfate is in the opposide, with add of humic, fulvic and sulfate acids unable to reduce P adsorption for the Mt. Dieng and Sumbing, its presumably due to dosing of 100 mg.L-1 humic, fulvic and sulfate acids unable to compete with PO4 at the site due to phosphate adsorption is included in the inner sphare complex, while the anion that replaces merge in to outer sphare complex.

Kata Kunci : jerapan, alofan, Langmuir, Freundlich, TEM