High concentrations of zinc and copper are often found in bio-sludge of livestock wastewater treatment facility and cause high zinc and copper accumulation in compost. Applications of zinc- or copper-rich compost to the field can result in high zinc/copper residues in the surface soil and violate the limitation of zinc and copper for land applications. The livestock bio-sludge was dried and treated with different concentrations of acetic acid (1N, 2N, and 4N). The acid-extracted sludge was then treated with or without addition of H2O2 during different time periods (4-, 24-, and 48-h) for investigating the efficiency of acid extraction of zinc and copper. The supernatant of the acid-extracted product was separated from the residues by centrifugation. Experimental results showed that the treatment set of the dried bio-sludge with 2% H2O2 significantly promoted the removal efficiency of zinc and copper from the bio-sludge (p < 0.01). Results showed that the best removal efficiency of copper and zinc from the bio-sludge was 40 and 70%, respectively, by 4N acetic acid in the 48-h group. The filtrated supernatant was adjusted to different pH values (i.e. 4.5, 5.0, and 5.5) with 1N NaOH for exploring the effects of acidity and alkalinity in the filtrate, containing the extracted zinc and copper, on the following bio-absorption by baker’s yeast. The molasses was added into the filtrate and used as the available carbon source to support the yeast’s growth during 4-h time course experiments for bio-absorption of the copper and zinc from the filtrate. Results of the study revealed that the removal efficiency of zinc from the filtrate was more than 90% by baker’s yeast, while of copper was about 50% at pH=5.5 and reaction time of 4 h. In summary, combination of these two approaches is expected to reduce and recycle the heavy metal in livestock sludge. The use of acetic acid with hydrogen peroxide can extract copper and zinc from the sludge. However, the use of 2N acetic acid with hydrogen peroxide solution under a 24-h time period can achieve the same effect by using 4N acetic acid. The yeast has the ability to absorb both copper and zinc in the filtrate at pH = 5.5. Hopefully, the achievement of this study can be applied to develop a machinery platform for recycling zinc and copper from livestock bio-sludge.