Waring Elizabeth F, Holaday A Scott
Department of Biological Sciences, Texas Tech University, Lubbock, Texas 79409 USA.
Am J Bot. 2017 Jul;104(7):999-1007. doi: 10.3732/ajb.1600339.
Global change in temperature and soil nitrogen availability could affect plant community composition, potentially giving an advantage to invasive species compared to native species. We addressed how high temperatures affected CO assimilation parameters for invasive Phalaris arundinacea and a sedge, Carex stricta, it displaces, in natural and controlled environments.
Photosynthetic parameters were measured in a wetland in Indiana, USA during the abnormally warm year of 2012. In a growth chamber, photosynthetic parameters were measured on the plants grown under three levels of nitrogen and exposed to optimum temperatures followed by 2012-like summer conditions and then hot temperatures with an autumn-like photoperiod.
In the wetland, C. stricta exhibited signs of midsummer leaf senescence, whereas P. arundinacea maintained CO assimilation at ambient pCO (A ) through mid-October. In the chamber, 2012-like conditions reduced A for both species through reductions in maximum carboxylation (V ) and electron transport (J ) without further change during subsequent hot, autumn-like conditions, whereas the quantum efficiency of carbon assimilation (qe) declined throughout the experiment. However, P. arundinacea had higher values of A , J , and qe than C. stricta. A general, the positive effect of increasing nitrogen availability occurred for photosynthetic processes for both species in hot conditions.
Our data suggest that C. stricta is more susceptible to excessive light stress than P. arundinacea during hot, sunny periods, leading to leaf senescence. Field confirmation of this idea is needed, but frequent heat waves should favor P. arundinacea over C. stricta with or without eutrophication.
全球气温和土壤氮素有效性的变化可能会影响植物群落组成,与本地物种相比,这可能会给入侵物种带来优势。我们研究了高温如何影响入侵的虉草和它所取代的一种莎草(硬苔草)在自然和受控环境中的CO₂同化参数。
2012年美国印第安纳州异常温暖的年份,在一片湿地中测量光合参数。在生长室中,对在三种氮水平下生长的植物测量光合参数,这些植物先暴露于最适温度,然后是类似2012年夏季的条件,接着是具有秋季光周期的高温。
在湿地中,硬苔草表现出仲夏叶片衰老的迹象,而虉草在10月中旬之前在环境pCO₂(A)下维持CO₂同化。在生长室中,类似2012年的条件通过降低最大羧化速率(V)和电子传递速率(J)降低了两个物种的A,在随后类似秋季的炎热条件下没有进一步变化,而碳同化量子效率(qe)在整个实验过程中下降。然而,虉草的A、J和qe值高于硬苔草。总体而言,在炎热条件下,增加氮素有效性对两个物种的光合过程都有积极影响。
我们的数据表明,在炎热、阳光充足的时期,硬苔草比虉草更容易受到过度光照胁迫,导致叶片衰老。这一观点需要实地验证,但无论是否存在富营养化,频繁的热浪应该会使虉草比硬苔草更具优势。
