| ²é¿´: 915 | »Ø¸´: 5 | |||
| µ±Ç°Ö÷ÌâÒѾ´æµµ¡£ | |||
| µ±Ç°Ö»ÏÔʾÂú×ãÖ¸¶¨Ìõ¼þµÄ»ØÌû£¬µã»÷ÕâÀï²é¿´±¾»°ÌâµÄËùÓлØÌû | |||
zhangzhu6198Òø³æ (СÓÐÃûÆø)
|
[½»Á÷]
¡¾ÌÖÂÛ¡¿Ö¸Ê¾ÎïÖÖ·¨ÆÀ¼ÛºÓÁ÷Éú̬½¡¿µ
|
||
|
ÐÂÊÖ×î½ü¿´Á˹ØÓÚָʾÎïÖÖ·¨ÆÀ¼ÛºÓÁ÷Éú̬½¡¿µµÄһЩÖÐÎÄÎÄÏס£ Åθ÷λ´ó´óÍƼö¹úÄÚÇ¿È˵ÄÎÄÏ׺ͺõĵÄÓ¢ÎÄÎÄÏס£ |
»Ø¸´´ËÂ¥» ²ÂÄãϲ»¶
ÉϺ£Ó¦Óü¼Êõ´óѧ»¯¹¤ÔºÕÐÊÕµ÷¼Á
ÒѾÓÐ8È˻ظ´
-
ÉϺ£Ó¦Óü¼Êõ´óѧ»¯¹¤Ñ§ÔºÕÐÊÕµ÷¼Á
ÒѾÓÐ4È˻ظ´
-
»¯Ñ§¹¤³Ì¼°¹¤Òµ»¯Ñ§ÂÛÎÄÈóÉ«/·ÒëÔõôÊÕ·Ñ?
ÒѾÓÐ83È˻ظ´
-
ÉϺ£Ó¦Óü¼Êõ´óѧÕÐÊÕµ÷¼Á
ÒѾÓÐ0È˻ظ´
-
AÇøÕÐÊÕ08¿¼Êýѧ
ÒѾÓÐ2È˻ظ´
-
EI¹ú¼Ê»áÒé¼ìË÷¸üÐÂ֪ͨ
ÒѾÓÐ3È˻ظ´
-
¡¾²©Ê¿ÕÐÉú¡¿¹ã¶«¹¤Òµ´óѧ¹ú¼ÒÓÅÇà¿ÎÌâ×éÕÐÊÕ2026Ä격ʿÉú£¨»·¾³/»¯Ñ§/²ÄÁÏ/΢ÉúÎ
ÒѾÓÐ6È˻ظ´
-
ÆóÒµ³ö¹ú·ÃÎʽ»Á÷ÇóÖú
ÒѾÓÐ0È˻ظ´
-
ÇൺÀí¹¤´óѧÕÐÊÕµ÷¼ÁÉú»·¾³¡¢»¯Ñ§¡¢Ê³Æ·¡¢²ÄÁÏ¡¢»¯¹¤¾ù¿É
ÒѾÓÐ1È˻ظ´
-
Ñû¸å£ºToxics (IF 4.1£¬ÖпÆÔº3Çø£¬JCR Q1) רÌâ-¿ÕÆøÎÛȾÎï¼õÅŲßÂÔ
ÒѾÓÐ0È˻ظ´
-
SCIÈýÇøÆÚ¿¯Toxics (IF 4.1)¿ÕÆøÎÛȾרÌâÑû¸å
ÒѾÓÐ0È˻ظ´
cjn10
½ð³æ (ÖøÃûдÊÖ)
- EEPI: 2
- Ó¦Öú: 15 (СѧÉú)
- ½ð±Ò: 1267.9
- É¢½ð: 417
- ºì»¨: 2
- Ìû×Ó: 1003
- ÔÚÏß: 190.8Сʱ
- ³æºÅ: 305933
- ×¢²á: 2006-12-10
- רҵ: »·¾³ÎÛȾ»¯Ñ§
¡ï ¡ï
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
luhaitao84(½ð±Ò+1,VIP+0):²»´íµÄ½¨Ò飡 12-24 22:28
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
luhaitao84(½ð±Ò+1,VIP+0):²»´íµÄ½¨Ò飡 12-24 22:28
| Â¥Ö÷²»ÈçÏÈÁгö×Ô¼º¾õµÃºÃµÄÎÄÏ×¹©´ó¼Ò²Î¿¼ |
4Â¥2009-12-24 21:48:57
ÌðÃÀµÄÃÎ
½ð³æ (СÓÐÃûÆø)
- Ó¦Öú: 0 (Ó׶ùÔ°)
- ½ð±Ò: 601.5
- Ìû×Ó: 69
- ÔÚÏß: 175.8Сʱ
- ³æºÅ: 871242
- ×¢²á: 2009-10-13
- רҵ: »·¾³·ÖÎö»¯Ñ§
¡ï
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
| ¿ÉÒÔ½»Á÷¹þ£¬ÎÒÒ²ÔÚ¿´Õâ·½ÃæµÄ£¬»¹Ã»ÓпªÊ¼¿´Ó¢Îĵġ£ |
3Â¥2009-10-16 22:50:06
lzhhok
ÖÁ×ðľ³æ (Ö°Òµ×÷¼Ò)
- Ó¦Öú: 0 (Ó׶ùÔ°)
- ½ð±Ò: 13888.7
- É¢½ð: 300
- Ìû×Ó: 3594
- ÔÚÏß: 248.9Сʱ
- ³æºÅ: 190443
- ×¢²á: 2006-02-20
- ÐÔ±ð: GG
- רҵ: »·¾³Î¢ÉúÎïѧ
¡ï ¡ï
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
kxli(½ð±Ò+1,VIP+0):»ý¼«²ÎÓë½»Á÷£¡ 1-15 05:51
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
kxli(½ð±Ò+1,VIP+0):»ý¼«²ÎÓë½»Á÷£¡ 1-15 05:51
|
żҲÔÚÑо¿£¬ ÖÐÎĵÄû¿´¶àÉÙ£¬ Ó¢Îĵĸø´ó¼ÒÍƼö2¸ö¾µäµÄ£¬ ´ÓÖÐÔÙÕÒ£¬ »¶Ó½»Á÷£¡ 1. Stedtfeld RD, Baushke S, Tourlousse D, et al. Multiplex approach for screening genetic markers of microbial indicators[J]. Water Environ Res, 2007,79(3): 260-269. ÕªÒª:Genetic markers are expected to provide better specificity in epidemiological studies and potentially serve as better indicators of waterborne pathogens. Methods used to assess genetic markers of emerging microbial indicators include pulsed field gel electrophoresis, polymerase chain reaction (PCR), and microarrays. This paper outlines a high-throughput approach to screen for such genetic markers using a set of theoretical and experimental screening tools. The theoretical screening involves evaluating genes related to the ribosomal RNA and specific functions from emerging indicator groups, followed by experimental validation with appropriate sampling schemes and high-throughput and economical screening methods, such as microarrays, real time PCR, and on-chip PCR. Analysis of a wide range of samples covering temporal variability in location, host, and waterborne disease outbreaks is essential. The proposed approach is expected to shorten the time and cost associated with searching for new genetic markers of emerging indicators by at least 10-fold. 2. Sole M, Fetzer I, Wennrich R, et al. Aquatic hyphomycete communities as potential bioindicators for assessing anthropogenic stress[J]. Science of the Total Environment, 2008,389(2-3): 557-565. ÕªÒª:With a profound knowledge of how physico-chemical parameters affect these communities, microbial communities could be used as indicators for environmental changes and for risk assessment studies. We studied aquatic hyphomycete communities in rivers and aquifers from sites shaped by intense mining activities (namely the "Mansfeld region"  and chemical industry (cities of Halle and Bitterfeld) in Central Germany. Environmental stress factors such as high concentrations of heavy metals, sulphate, and nitrate as well as low concentrations of oxygen significantly reduced the diversity and biomass of hyphomycetes in the investigated samples. Redundancy analysis (RDA) indicates that variations in water chemistry cause a significant proportion of the change in fungal community structure (86.2%). Fungi were negatively correlated with high metal and nutrient concentrations. RDA also showed a strong influence of organic matter on individual species, with Anguillospora lorgissima (Sacc. et Syd.), Clavatospora longibrachiata (Ingold), Clavariopsis aquatica (De Wild), Flagellospora curvula (Ingold), Heliscus lugdunensis (Sacc. et Therry), Tumularia aquatica (Ingold) and Lemonniera aquatica (De Wild) being most sensitive. We propose that aquatic hyphomycete communities can be used as sensitive and integrative indicators for freshwater quality. (C) 2007 Elsevier B.V. All rights reserved. |
5Â¥2010-01-14 23:33:43
xigarfield
ͳæ (СÓÐÃûÆø)
- Ó¦Öú: 1 (Ó׶ùÔ°)
- ½ð±Ò: 140.1
- É¢½ð: 20
- Ìû×Ó: 166
- ÔÚÏß: 9.3Сʱ
- ³æºÅ: 809640
- ×¢²á: 2009-07-15
- ÐÔ±ð: GG
- רҵ: ÉúÎﺣÑóѧÓ뺣ÑóÉúÎï×ÊÔ´
¡ï ¡ï
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
kxli(½ð±Ò+1):лл»ý¼«²ÎÓë½»Á÷£¡ 2010-03-12 06:06
Сľ³æ(½ð±Ò+0.5):¸ø¸öºì°ü£¬Ð»Ð»»ØÌû½»Á÷
kxli(½ð±Ò+1):лл»ý¼«²ÎÓë½»Á÷£¡ 2010-03-12 06:06
|
ÎÒ×î½üÒ²ÔÚÑо¿£¬²»¹ýÎÒ×öº£ÑóµÄ£¬ ÏÖÔÚָʾÉúÎïºÜÈÈ£¬µ«ÊÇÒ²Óкܶà¾ÖÏÞÐÔ¡£The robustness of ecological indicators to detect long-term changes in the macrobenthos of estuarine systems£¬Marine Environmental Research£¬2009£¬¾Í²»´òÁË£¬ÏÂÔØÏÂÀ´¿´¿´¾ÍÊÇÁË¡£¸ü¶àµÄ×ÊÁÏÓë¾Ñé¿ÉÒÔ½»Á÷£¬ÎÒQQ46341751¡£ |
6Â¥2010-03-11 16:43:29
10