摘要
采用WinRhizo2005a根系扫描测定系统和石蜡切片法,研究亚低温(8~15℃)和轻度干旱(正常田间持水量的55%~70%)胁迫对番茄幼苗根系形态及叶片结构的影响.结果表明:亚低温和轻度干旱单一胁迫促进了番茄幼苗根系长度、表面积和体积的增加,而二者交互胁迫导致番茄根系各指标下降;亚低温和轻度干旱单一胁迫下番茄幼苗通过增加0.50~1.00mm径级比例来促进根系长度的增加,通过增加1.00~2.00mm径级比例来增加根系表面积和体积,交互胁迫下番茄幼苗通过减少0.20~0.50mm和<0.20mm2个径级的比例来延缓根系生长.叶片组织结构疏松度(SR)与组织结构紧密度(CTR)呈显著负相关,CTR与栅海比呈显著正相关;亚低温处理下栅栏组织厚度减小,轻度干旱胁迫下栅栏组织和海绵组织厚度均减小,交互胁迫使叶片变薄,栅海比显著降低.
By using WinRhizo 2005a root scanning measurement system and traditional paraffin sec- tioning method, this paper studied the root morphology and leaf structure of tomato seedlings under effects of sub-low temperature (8-15 ℃ ) and mild drought stress (55% -70% of normal field ca- pacity). Single treatment of sub-low temperature or mild drought stress promoted the increase of the seedling root length, surface area, and volume, while the interaction of the sub-low temperature and mild drought stress resulted in the decline of the indices. At sub-low temperature or under mild drought stress, the root length increase was promoted via the increase of the proportion of 0.50- 1.00 mm diameter class roots, and the increase of the root surface area and volume was promoted via the increase of the proportion of 1.00-2.00 mm diameter class roots. Under the interaction of the sub-low temperature and mild drought stress, the root growth was inhibited owing to the decrease of the proportions of 0.20-0.50 mm and 〈0.20 mm diameter classes roots. There was a significant negative correlation between the cell tense ratio (CTR) and spongy ratio (SR), and a significant positive correlation between the CTR and palisade tissue thickness/spongy tissue thickness. At sub- low temperature, the palisade tissue thickness decreased; under mild drought stress, both the pali- sade tissue thickness and the spongy tissue thickness decreased; whereas the interaction of sub-low temperature and mild drought stress made leaf become thinner and palisade tissue thickness/spongy tissue thickness had a significant decrease.
出处
《应用生态学报》
CAS
CSCD
北大核心
2012年第11期3027-3032,共6页
Chinese Journal of Applied Ecology
基金
"十二五"国家科技支撑计划项目(2011BAD12B03)资助
关键词
番茄
根系
亚低温
干旱胁迫栅栏组织
海绵组织
tomato
root system
sub-low temperature
drought stress
palisade tissue
spongy tis-sue.
