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不同林龄海桑林和无瓣海桑林根际微生物特征

杨琼1,2,谭凤仪2,3,吴苑玲1,徐华林1,昝启杰2,4**   

  1. (1广东内伶仃福田国家级自然保护区管理局, 广东深圳 518040; 2福田城大红树林研发中心, 香港城市大学, 香港九龙; 3香港城市大学生物化学系, 香港九龙; 4深圳市野生动物救护中心, 广东深圳 518048)
  • 出版日期:2014-02-10 发布日期:2014-02-10

Soil microbial characteristics in the rhizosphere of Sonneratia caseolaris and S. apetala forests at different stand ages in Shenzhen Bay.

YANG Qiong1,2, TAM Fung-yee2,3, WU Yuan-ling1, XU Hua-lin1, ZAN Qi-jie2,4**   

  1. (1Guangdong Neilingding Futian National Nature Reserve, Shenzhen 518040, Guangdong, China; 2FutianCityU Mangrove Research and Development Centre, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong SAR, China; 3Department of Biology and Chemistry, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong SAR, China; 4Shenzhen Wild Animal Rescue Center, Xinzhou Road, Shenzhen 518048, Guangdong, China)
  • Online:2014-02-10 Published:2014-02-10

摘要:

对不同林龄无瓣海桑(1、2、7、10、14年生)和海桑(1、4、7、10、14年生)人工林根际土壤微生物群落、微生物生物量碳和呼吸强度进行了研究。结果显示,不同林龄海桑和无瓣海桑的根际土壤为中性偏酸性,根际土壤有机质含量随着林龄增加而增加,总氮、总磷含量均在7年生林达到最高值,随后则随林龄增加而减少。海桑和无瓣海桑根际土壤的微生物生物量碳随林龄增大,在7年生林达到最高值,随后开始下降。细菌、真菌和放线菌数量和微生物生物量碳变化趋势一致,也是在7年生林达到最高值。相同林龄的海桑根际微生物的呼吸强度小于无瓣海桑,海桑的呼吸强度随林龄增加而增加,但无瓣海桑的呼吸速率在7年生林达到最高。典型相关分析表明,微生物生物量碳、呼吸强度与土壤有机质、pH呈显著相关性。
 

关键词: 红松, 气候变化, 小兴安岭, 径向生长, 干旱胁迫

Abstract: The present study examined the relationships between rhizosphere soil characteristics, microbial community and microbial activities in the forests artificially planted with two Sonneratia species at different stand ages (1-, 2-, 7-, 10- and 14-yearold for S. apetala and 1-, 4-, 7-, 10- and 14-yearold for S. caseolaris) in Futian National Nature Reserve, Shenzhen Bay. The rhizosphere soils in S. apetala and S. caseolaris forests at different stand ages were neutral or slightly acidic. The soil organic matter content increased with stand ages, but the total nitrogen (N) and total phosphorus (P) contents increased significantly only from 1- to 7-year-old stands and then decreased with ages. The temporal changes of the microbial biomass carbon, as well as the population sizes of bacteria, fungi and actinomycetes, were similar, with the maximum values in the 7-year-old forest. The microbial respiration rate in S. caseolaris was less than that in S. apetala at the same stand age. The microbial respiration rate increased with ages in S. caseolaris, but reached the peak value in the 7-year-old S. apetala forest. The canonical correlation analysis showed that the microbial biomass carbon and respiration rate in the rhizosphere were significantly correlated with soil organic matter content and pH.

Key words: Pinus koraiensis, climate change, Xiaoxing’anling Mountains, radial growth, drought stress.