Rumen microbial degradation of bromoform from red seaweed(Asparagopsis taxiformis) and the impact on rumen fermentation and methanogenic archaea

Background The red macroalgae Asparagopsis is an effective methanogenesis inhibitor due to the presence of halogenated methane(CH4) analogues,primarily bromoform(CHBr3).This study aimed to investigate the degradation process of CHBr3 from A taxiformis in the rumen and whether this process is diet-dependent.An in vitro batch culture system was used according to a 2 × 2 factorial design,assessing two A taxiformis inclusion rates [0(CTL) and 2% DM diet(AT)] and two diets [high-concentrate(HC) and high-forage diet(HF)].Incubations lasted for 72 h and samples of headspace and fermentation liquid were taken at 0,0.5,1,3,6,8,12,16,24,48 and 72 h to assess the pattern of degradation of CHBr3into dibromomethane(CH2Br2) and fermentation parameters.Additionally,an in vitro experiment with pure cultures of seven methanogens strains(Methanobrevibacter smithii,Methanobrevibacter ruminantium,Methanosphaera stadtmanae,Methanosarcina barkeri,Methanobrevibacter millerae,Methanorhermobacter wolfei and Methanobacterium mobile) was conducted to test the effects of increasing concentrations of CHBr3(0.4,2,10and 50 μmol/L).Results The addition of AT significantly decreased CH4production(P=0.002) and the acetate:propionate ratio(P=0.003) during a 72-h incubation.The concentrations of CHBr3showed a rapid decrease with nearly 90% degraded within the first 3 h of incubation.On the contrary,CH2Br2concentration quickly increased during the first 6 h and then gradually decreased towards the end of the incubation.Neither CHBr3degradation nor CH2Br2synthesis were affected by the type of diet used as substrate,suggesting that the fermentation rate is not a driving factor involved in CHBr3degradation.The in vitro culture of methanogens showed a dose-response effect of CHBr3 by inhibiting the growth of M.smithii,M.ruminantium,M.stadtmanae,M.barkeri,M.millerae,M.wolfei,and M.mobile.Conclusions The present work demonstrated that CHBr3from A.taxiformis is quickly degraded to CH2Br2in the rumen and that the fermentation rate promoted by different diets is not a driving factor involved in CHBr3degradation.