生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
11期
1752-1758
,共7页
盐雾胁迫%盐生植物%榄仁%离子分布
鹽霧脅迫%鹽生植物%欖仁%離子分佈
염무협박%염생식물%람인%리자분포
salt spray%halophyte%Terminalia catappa%ion distribution
在温室培养条件下,用叶片喷雾的方式对盐生植物榄仁(Terminalia catappa)的幼苗进行NaCl胁迫处理,研究了盐雾胁迫对其生长、5种矿质元素(Ca2+、Mg2+、Na+、K+、Cl-)和灰分在幼苗不同叶龄叶片和叶片各部分分布的影响,以探讨盐雾胁迫下的盐害机理,以此指导实际工作中盐害诊断与预防措施,为筛选耐盐树种建设沿海防护林提供依据。结果表明:盐雾胁迫下榄仁幼苗的叶、茎、根生长比对照组缓慢,K+在各叶片分区的分布差别较小,Ca2+、Mg2+、灰分在叶片中心区分布较多,Na+和Cl-均向叶缘集中,且Na+和Cl-质量分数显著增加(P<0.05),可见盐雾胁迫下榄仁幼苗叶片盐分较易集中在叶尖、叶缘,这与叶片病斑多分布于叶尖、叶缘的症状相符。盐雾胁迫下榄仁幼苗叶片的灰分质量分数在叶片中心区分布最多,并呈现老叶>成叶>新叶,而且随胁迫时间增加呈升高趋势,叶片不同部位和不同叶龄的灰分质量分数都显著高于对照组(P<0.05),故盐雾胁迫促进植物体灰分积累。盐雾胁迫下榄仁幼苗的 K+、Na+、Cl-在新叶分布最多,Ca2+在老叶分布最多,Mg2-在成熟叶分布最多,可见新叶对盐雾胁迫最敏感。不论是在叶片不同部分、不同叶龄的分布,还是在盐雾胁迫下5种矿质元素质量分数的变化上,榄仁幼苗体内的Na+-Cl-存在极显著强正相关(P<0.01)。
在溫室培養條件下,用葉片噴霧的方式對鹽生植物欖仁(Terminalia catappa)的幼苗進行NaCl脅迫處理,研究瞭鹽霧脅迫對其生長、5種礦質元素(Ca2+、Mg2+、Na+、K+、Cl-)和灰分在幼苗不同葉齡葉片和葉片各部分分佈的影響,以探討鹽霧脅迫下的鹽害機理,以此指導實際工作中鹽害診斷與預防措施,為篩選耐鹽樹種建設沿海防護林提供依據。結果錶明:鹽霧脅迫下欖仁幼苗的葉、莖、根生長比對照組緩慢,K+在各葉片分區的分佈差彆較小,Ca2+、Mg2+、灰分在葉片中心區分佈較多,Na+和Cl-均嚮葉緣集中,且Na+和Cl-質量分數顯著增加(P<0.05),可見鹽霧脅迫下欖仁幼苗葉片鹽分較易集中在葉尖、葉緣,這與葉片病斑多分佈于葉尖、葉緣的癥狀相符。鹽霧脅迫下欖仁幼苗葉片的灰分質量分數在葉片中心區分佈最多,併呈現老葉>成葉>新葉,而且隨脅迫時間增加呈升高趨勢,葉片不同部位和不同葉齡的灰分質量分數都顯著高于對照組(P<0.05),故鹽霧脅迫促進植物體灰分積纍。鹽霧脅迫下欖仁幼苗的 K+、Na+、Cl-在新葉分佈最多,Ca2+在老葉分佈最多,Mg2-在成熟葉分佈最多,可見新葉對鹽霧脅迫最敏感。不論是在葉片不同部分、不同葉齡的分佈,還是在鹽霧脅迫下5種礦質元素質量分數的變化上,欖仁幼苗體內的Na+-Cl-存在極顯著彊正相關(P<0.01)。
재온실배양조건하,용협편분무적방식대염생식물람인(Terminalia catappa)적유묘진행NaCl협박처리,연구료염무협박대기생장、5충광질원소(Ca2+、Mg2+、Na+、K+、Cl-)화회분재유묘불동협령협편화협편각부분분포적영향,이탐토염무협박하적염해궤리,이차지도실제공작중염해진단여예방조시,위사선내염수충건설연해방호림제공의거。결과표명:염무협박하람인유묘적협、경、근생장비대조조완만,K+재각협편분구적분포차별교소,Ca2+、Mg2+、회분재협편중심구분포교다,Na+화Cl-균향협연집중,차Na+화Cl-질량분수현저증가(P<0.05),가견염무협박하람인유묘협편염분교역집중재협첨、협연,저여협편병반다분포우협첨、협연적증상상부。염무협박하람인유묘협편적회분질량분수재협편중심구분포최다,병정현로협>성협>신협,이차수협박시간증가정승고추세,협편불동부위화불동협령적회분질량분수도현저고우대조조(P<0.05),고염무협박촉진식물체회분적루。염무협박하람인유묘적 K+、Na+、Cl-재신협분포최다,Ca2+재로협분포최다,Mg2-재성숙협분포최다,가견신협대염무협박최민감。불론시재협편불동부분、불동협령적분포,환시재염무협박하5충광질원소질량분수적변화상,람인유묘체내적Na+-Cl-존재겁현저강정상관(P<0.01)。
In order to understanding the mechanism of salt damage on halophyte Terminalia catappa seedlings, the seedlings were treated with NaCl in greenhouse by leaf spray, then their growth rate, and the allocation of mineral elements and ash in the different age and parts of the leaf were measured, which may guide the salt damage diagnosis and prevention measures in practical work, provide a basis for screening the salt tolerance species and constructing the coastal shelter forest. The results showed that the growth rate of leaf, stem and root of Terminalia catappa seedling treated by salt spray was slower than that of control group. There was no significant difference on the distribution of K+in the different parts of the leaf. Ca2+and Mg2+, and Na+and Cl-mostly distributed in the center part of leaves and at the edge of leaf, respectively. Moreover, the mass fraction of Na+and Cl-was significantly increased (P<0.05). Therefore, the salinity mainly distributed on the leaf tip and leaf edge after salt spray, which coincided with the symptom of lesions distributed mostly on the leaf tip and leaf edge of Terminalia catappa seedling. The mass fraction of ash of Terminalia catappa seedling mainly distributed in the center part of leaves after salt spray and increased with salt spray time. The order of mass fraction of ash was old leaves>mature leaves>new leaves. Furthermore, the mass fraction of ash in the different age and parts of the leaf treated by salt spray was significantly higher than that of control group (P<0.05). So the accumulation of ash in the plant increased with the treatment of salt spray. K+, Na+and Cl-, Ca2+, and Mg2+on Terminalia catappa seedling mainly distributed on the new leaves, the old leaves, and the mature leaves, separately showing that the new leaves were the most sensitive to salt. A significantly positive correlation between Na+ and Cl- was found in the plant with the treatment of salt spray in spite of the distribution of mineral elements in the different age and parts of the leaf, and the alteration of mass fraction of mineral elements (P<0.01).
