作 者 :徐永健, 韦玮
期 刊 :植物生态学报 2006年 30卷 4期 页码:689-694
关键词:龙须菜;pH缓冲系统;POPSO;生长速率;无机碳;
Keywords:Gracilaria lemaneiformis, pH buffer, POPSO, SGR, DIC,
摘 要 :该文选择红藻门大型植物龙须菜(Gracilaria lemaneiformis)作为研究对象,通过黑白瓶法筛选出有机试剂POPSO(哌嗪_N,N_双(2_羟基乙烷磺酸)),能较好地缓冲室内龙须菜培养中介质pH的波动。在此基础上,探讨了POPSO对龙须菜生长的影响,结果表明:15 mmol•L-1及以上浓度的POPSO能较好地稳定介质pH值,减少系统中DIC浓度的急剧变化,但POPSO对CO2浓度波动不起作用;试验结果还表明,介质中的CO2浓度与龙须菜的生长速率间存在着类似酶动力学方程的关系,当介质中的CO2浓度下降到5.25
µmol•L-1以下时,龙须菜生长出现抑制现象。相对稳定pH的培养环境,更有利于介质DIC中的HCO3-、 CO32-向CO2的转换,缓解龙须菜生长的C抑制。
Abstract:Background and Aims We examined the effect of acid_alkaline concentrations in media on
growth rate and nutrient uptake of a red macroalga, Gracilaria lemaneiformis, which has a
rapid growth rate, rapid nutrient uptake rate, and high agar content. We address the
following questions: 1) can the culture media be kept relatively stabilized, 2) what
organic compound best buffers pH, and 3) how does the compound buffer the media and affect
growth of the alga?
Methods Utilizing the dark_light bottles method, we selected a suitable zwitterionic
organic compound from seven reagents (barbitone, borate, HEPES, TRIS, MOPS , TAPS, POPSO)
that did not inhibit photosynthetic production of dissolved oxygen (DO), did not increase
depletion of DO in respiration, and adjusted acid_alkaline balance in the culture media. We
examined the effects of each buffer on growth rate (SGR) of G. lemaneiformis, measured
diurnal and weekly variations of pH and dissolved inorganic carbon (DIC), and determined
CO2 concentrations according to pH and DIC. We integrated these with the growth rate of G.
lemaneiformis,to investigate the mechanisms of growth and carbon uptake.
Key Results POPSO was the zwitterionic organic compound that best met our objec tives.
During the diurnal experiment of POPSO’s effect on algal growth, pH rose continuously
during the light cycle, contrary to DIC; however, high concentration of POPSO can buffer
this fluctuation. During the one_week experiment, accordin g to results of the diurnal
experiment, pH values and DIC at the beginning and end of the light cycle indicated that
lower concentrations of POPSO (0 and 5 mmol•L-1) did not buffer pH fluctuations, but
higher concentrations (>15mm ol•L-1) suitably stabilized pH values and leveled off DIC
content in the media. Ambient CO2 concentration determined algal growth rates, with the
relationship between SGR of G. lemaneiformis and ambient CO2 concentration similar to a
Michaelis_Menton kinetics equation. The saturated concentration of CO2 was 5.25 µmol•L-1,
and the maximum growth rate of the alga was 10.11%•d-1.
Conclusions This study determined that POPSO is a suitable organic compound to buffer G.
lemaneiformis culture media. A possible mechanism is that, under relative stabilization of
acid_alkaline media, HCO3-and CO32-(components of DIC), transformed into CO2 and
accelerated growth rate of the alga.