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第 4 期杨礼震等：养猪废水处理工艺对耐药基因迁移影响研究进展 7

residue and prebiotic［J/OL］.PLoS One，2015，10（7）：e0132961 stalks［J］.Journal of hazardous materials，2018，358：82-91.
［2022-03-31］.https：//doi.org/10.1371/journal.pone.0132961. ［25］王荣昌，王超颖，曾旭 .污水处理过程中抗生素抗性基因的检测
［13］ LIM S K，KIM D，MOON D C，et al.Antibiotic resistomes dis‐ 及其水平转移机制的研究进展［J］. 环境化学，2017，36（12）：
covered in the gut microbiomes of Korean swine and cattle［J］.Gi‐ 2567-2573.WANG R C，WANG C Y，ZENG X.Detection and
gaScience，2020，9（5）：1-11. horizontal transfer of antibiotic resistance genes during wastewa‐
［14］ WANG C L，LI P，YAN Q L，et al.Characterization of the pig ter treatment processes［J］. Environmental chemistry，2017，36
gut microbiome and antibiotic resistome in industrialized feedlots （12）：2567-2573（in Chinese with English abstract）.
in China［J/OL］.mSystems，2019，4（6）：e00206-e00219［2022- ［26］ CHENG D L，HAO N H，GUO W S，et al.Contribution of anti‐
03-31］.https：//doi.org/10.1128/msystems.00206-19. biotics to the fate of antibiotic resistance genes in anaerobic treat‐
［15］ DE LANGE C F M，PLUSKE J，GONG J，et al.Strategic use of ment processes of swine wastewater：a review［J/OL］. Biore‐
feed ingredients and feed additives to stimulate gut health and de‐ source technology，2020，299：122654［2022-03-31］.https：//doi.
velopment in young pigs［J］.Livestock science，2010，134（1/2/ org/10.1016/j.biortech.2019.122654.
3）：124-134. ［27］ MA Z，WU H H，ZHANG K S，et al.Long-term low dissolved
［16］ HOELZER K，BIELKE L，BLAKE D P，et al.Vaccines as alter‐ oxygen accelerates the removal of antibiotics and antibiotic resis‐
natives to antibiotics for food producing animals.Part 2：new ap‐ tance genes in swine wastewater treatment［J］. Chemical engi‐
proaches and potential solutions［J/OL］. Veterinary research， neering journal，2018，334：630-637.
2018，49（1）：70［2022-03-31］.https：//doi.org/10.1186/s13567- ［28］ PU C J，LIU H，DING G C，et al.Impact of direct application of
018-0561-7. biogas slurry and residue in fields：in situ analysis of antibiotic re‐
［17］ SARMAH A K，MEYER M T，BOXALL A B A.A global per‐ sistance genes from pig manure to fields［J］.Journal of hazardous
spective on the use，sales，exposure pathways，occurrence，fate materials，2018，344：441-449.
and effects of veterinary antibiotics（VAs）in the environment ［29］ ZHANG J Y，CHEN M X，SUI Q W，et al.Fate of antibiotic re‐
［J］.Chemosphere，2006，65（5）：725-759. sistance genes and its drivers during anaerobic co-digestion of
［18］ ZHANG J Y，LU T D，CHAI Y F，et al.Which animal type con‐ food waste and sewage sludge based on microwave pretreatment
tributes the most to the emission of antibiotic resistance genes in ［J］.Bioresource technology，2016，217：28-36.
large-scale swine farms in China？［J］.Science of the total environ‐ ［30］ CHENG W X，LI J N，WU Y，et al.Behavior of antibiotics and
ment，2019，658：152-159. antibiotic resistance genes in eco-agricultural system：a case study
［19］ GAO F Z，ZOU H Y，WU D L，et al.Swine farming elevated the ［J］.Journal of hazardous materials，2016，304：18-25.
proliferation of Acinetobacter with the prevalence of antibiotic re‐ ［31］ SUI Q W，ZHANG J Y，CHEN M X，et al.Distribution of antibi‐
sistance genes in the groundwater［J/OL］.Environment interna‐ otic resistance genes（ARGs）in anaerobic digestion and land ap‐
tional，2020，136：105484 ［2022-03-31］. https：//doi. org/ plication of swine wastewater［J］.Environmental pollution，2016，
10.1016/j.envint.2020.105484. 213：751-759.
［20］ MU Q H，LI J，SUN Y X，et al.Occurrence of sulfonamide-，tet‐ ［32］ SUN W，GU J，WANG X J，et al.Impacts of biochar on the envi‐
racycline-，plasmid-mediated quinolone- and macrolide-resistance ronmental risk of antibiotic resistance genes and mobile genetic
genes in livestock feedlots in northern China［J］.Environmental elements during anaerobic digestion of cattle farm wastewater［J］.
science and pollution research international，2015，22（9）：6932- Bioresource technology，2018，256：342-349.
6940. ［33］ ZHANG J Y，LIU J B，LU T D，et al.Fate of antibiotic resis‐
［21］ YAN H L，LI Y，ZHANG Y，et al.Deciphering of microbial di‐ tance genes during anaerobic digestion of sewage sludge：role of
versity and antibiotic resistome of bioaerosols in swine confine‐ solids retention times in different configurations［J］.Bioresource
ment buildings［J/OL］.Science of the total environment，2021， technology，2019，274：488-495.
781：147056 ［2022-03-31］. https：//doi. org/10.1016/j. scito‐ ［34］ TIAN Z，ZHANG Y，YU B，et al.Changes of resistome，mobi‐
tenv.2021.147056.
lome and potential hosts of antibiotic resistance genes during the
［22］ VAN GOMPEL L，LUIKEN R E C，HANSEN R B，et al.De‐ transformation of anaerobic digestion from mesophilic to thermo‐
scription and determinants of the faecal resistome and microbi‐ philic［J］.Water research，2016，98：261-269.
ome of farmers and slaughterhouse workers：a metagenome-wide ［35］ YANG Y W，WU R T，HU J X，et al.Dominant denitrifying bac‐
cross-sectional study［J/OL］. Environment international，2020，
teria are important hosts of antibiotic resistance genes in pig farm
143：105939 ［2022-03-31］. https：//doi. org/10.1016/j. en‐ anoxic-oxic wastewater treatment processes［J/OL］. Environ‐
vint.2020.105939.
ment international，2020，143：105897［2022-03-31］.https：//doi.
［23］ BEN W W，WANG J，PAN X，et al.Dissemination of antibiotic org/10.1016/j.envint.2020.105897.
resistance genes and their potential removal by on-farm treatment ［36］ SUI Q W，CHEN Y L，YU D W，et al.Fates of intracellular and
processes in nine swine feedlots in Shandong Province，China［J］. extracellular antibiotic resistance genes and microbial community
Chemosphere，2017，167：262-268. structures in typical swine wastewater treatment processes［J/
［24］ ZHANG R R，GU J，WANG X J，et al.Contributions of the mi‐ OL］. Environment international，2019，133：105183 ［2022-03-
crobial community and environmental variables to antibiotic resis‐ 31］.https：//doi.org/10.1016/j.envint.2019.105183.
tance genes during co-composting with swine manure and cotton ［37］ TAO C W，HSU B M，JI W T，et al.Evaluation of five antibiotic

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