«Previous Article|Table of Contents|Next Article»

¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2016Äê17

Page:

82-86

Research Field:

Publishing date:

Info

Title:

Photosynthetic and Carbon Fixation Characteristics of 9 Evergreen Magnoliaceae Species

Author(s):

MO Yaying; YU Jinliang; LI Nianlin; ZHANG Pengchong

(Hangzhou Botanical Garden£¬Hangzhou£¬Zhejiang 310013)ª¤

Keywords:

Magnoliaceae; net diurnal carbon fixation; light response curve; factor analysis

PACS:

-

DOI:

10.11937/bfyy.201617020

Abstract:

Taking nine evergreen Magnoliaceae tree species planted in Hangzhou Botanical Garden as the research materials£¬the diurnal change of net photosynthetic rate and light response curve were measured by LI-6400 XT.The results showed that Michelia foveolata¡Áfigo had the highest net diurnal carbon fixation(12.944 g?m-2?d-1) followed by Manglietia moto(9.543 g?m-2?d-1£©and Michelia wilsonii subsp.szechuanica£¨6.333 g?m-2?d-1£©£¬while Michelia wilsonii was the lowest£¨2.223 g?m-2?d-1£©.The light response curve parameters reflected the growth adaptability and carbon sequestration capacity.According to the results of factor analysis£¬Michelia foveolata¡Áfigo£¬Michelia wilsonii subsp.szechuanica and Manglietia moto had higher adaptability.Combining with two aspects of characters£¬Michelia foveolata¡Áfigo£¬Michelia wilsonii subsp.szechuanica and Manglietia moto could be used as afforesting species in Hangzhou.

References:

 

[1]ÕÅСȫ£¬ÎäÊïºì.ÖйúCDMÔìÁÖÔÙÔìÁÖÏîÄ¿Ö¸ÄÏ[M].±±¾©£ºÖйúÁÖÒµ³ö°æÉ磬2006£º1.ª¤

[2]RAVINDRANATH N H£¬OSTWALD M.ÁÖҵ̼»ã¼ÆÁ¿[M].±±¾©£ºÖйúÁÖÒµ³ö°æÉ磬2009£º1-2.ª¤

[3]ëÆëÕý£¬ÂÞÉÏ»ª£¬Âí¿ËÃ÷,µÈ.³ÇÊÐÂ̵ØÉú̬ÆÀ¼ÛÑо¿½øÕ¹[J].Éú̬ѧ±¨£¬2012£¬32(17)£º5589-5600.ª¤

[4]ºÎÐËÔª£¬Äþ×£»ª.³ÇÊÐÉ­ÁÖÉú̬Ñо¿½øÕ¹[M].±±¾©£ºÖйúÁÖÒµ³ö°æÉ磬2002£º75-83.ª¤

[5]ĪÑÇÓ¥£¬Óà½ðÁ¼£¬ÀèÄîÁÖ.º¼ÖÝÖ²Îï԰ľÀ¼¿ÆÖ²Îï×ÊÔ´¼°ÆäÔ°ÁÖÓ¦ÓÃ[J].º¼ÖÝÖ²ÎïÔ°£¬2014(4)£º12-14.ª¤

[6]ÀèÇ壬ºÎÐãÔÆ£¬ÐÞС¾ê,µÈ.16ÖÖľÀ¼¿ÆÊ÷ÖÖ¹âºÏÌØÐԱȽÏ[J].ÂÌÉ«¿Æ¼¼£¬2014(7)£º46-48.ª¤

[7]ÕŽ¿£¬ÀÃ÷£¬Ê©Óµ¾ü,µÈ.30ÖÖƽԭÂÌ»¯ÇÇľÊ÷ÖÖ¹âºÏ¹Ì̼ÌØÐÔ·ÖÎö[J].Î÷ÄÏÁÖÒµ´óѧѧ±¨£¬2012£¬32(6)£º6-12.ª¤

[8]½ªÏ¼.»ùÓÚ¹âºÏÉúÀíÖ¸±êµÄÇ­ÖеØÇøÔìÁÖÊ÷ÖÖÑ¡ÔñÑо¿[D].¹óÑô:¹óÖÝ´óѧ£¬2006.ª¤

[9]½ªÏ¼£¬ÕÅϲ£¬Ð»Ë«Ï²,µÈ.ľÀ¼¿ÆÖ÷ÒªÊ÷ÖÖÓ×ÃçµÄ¹âºÏÉúÀíÌØÕ÷±È½Ï[J].¹óÖÝÅ©Òµ¿Æѧ£¬2005£¬33(3)£º12-15.ª¤

[10]½¯»ªÎ°£¬ÂÞºìÓ꣬ÀîÐÀ,µÈ.ËÕÖÝÖ÷ÒªÔ°ÁÖÊ÷ÖֵĹâºÏ¹Ì̼ÄÜÁ¦¶Ô±È·ÖÎö[J].½­ËÕÁÖÒµ¿Æ¼¼£¬2014£¬12(6)£º7-11.ª¤

[11]½ªÎÀ±ø£¬Àî¸Õ£¬ÎÌæÁá,µÈ.ÎåÖÖľÀ¼¿ÆÊ÷ÖÖÔÚÄϾ©µØÇø¶¬´º¼¾½ÚµÄ¹âºÏÌØÕ÷[J].Ó¦ÓÃÉú̬ѧ±¨£¬2007£¬18(4)£º749-755.ª¤

[12]ÕŽ¿£¬Ê©Óµ¾ü£¬ÖìÔÂÇå,µÈ.Õã±±µØÇø³£¼ûÂÌ»¯Ê÷ÖÖ¹âºÏ¹Ì̼ÌØÕ÷[J].Éú̬ѧ±¨£¬2013£¬33(6)£º1740-1750.ª¤

[13]Áõ¼Î¾ý£¬ÍõÖ¾¸Õ£¬ÑÖ°®»ª,µÈ.12ÖÖ²ÊÒ¶Ê÷ÖÖ¹âºÏÌØÐÔ¼°¹Ì̼ÊÍÑõ¹¦ÄÜ[J].¶«±±ÁÖÒµ´óѧѧ±¨£¬2011£¬39(9)£º23-26.ª¤

[14]ÍõÀöÃ㣬ÇØ¿¡£¬¸ß¿­,µÈ.ÊÒÄÚÖ²ÎïµÄ¹Ì̼·ÅÑõÑо¿[C]//ÕÅÆôÏè.2007ÄêÖйúÔ°ÒÕѧ»á¹ÛÉÍÔ°ÒÕרҵίԱ»áÂÛÎļ¯.±±¾©£ºÖйúÁÖÒµ³ö°æÉ磬2007.ª¤

[15]Ò¶×ÓÆ®£¬Íõ½¨ÁÖ.Ö²Îï¹âºÏ-¹âÏìӦģÐ͵ıȽϷÖÎö[J].¾®¸ÔɽѧԺѧ±¨(×ÔÈ»¿Æѧ°æ)£¬2009£¬30(4)£º9-13.ª¤

[16]л»á³É£¬½ªÖ¾ÁÖ£¬Àî¼Êºì.˨ƤèÝÁÖ¹âºÏÌØÐÔµÄÑо¿[J].ÄϾ©ÁÖÒµ´óѧѧ±¨(×ÔÈ»¿Æѧ°æ)£¬2004£¬28(5)£º83-85.ª¤

[17]GREGORIOU K£¬PONTIKIS K£¬VEMMOS S.Effects of reduced irradiance on leaf morphology£¬photosynthetic capacity and fruit yield in olive(Olea europaea L.)[J].Photosynthetica£¬2007£¬45(2)£º172-181.ª¤

[18]LONG S P£¬HUMPHRIES S£¬FALKOWSKI P G.Photo-inhibition of photosynthesis in nature[J].Annual Review of Plant Physiology and Plant Molecular Biology£¬1994£¬45(1)£º633-662.

Memo

Memo:

-

Common functions

Last Update: 2016-10-13