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Nobel Park S. Zhang Hehui Sharifi Rasoul Castañeda Miguel Greenhouse Barry 《Photosynthesis research》1998,56(1):67-73
Encelia farinosa is one of the most abundant and highly studied species of the Sonoran Desert, yet characteristics of its leaf development and long-term photosynthetic capacity are relatively unknown. The net CO2 uptake rate and the Rubisco activity per unit leaf area for E. farinosa in a glasshouse increased in parallel for about 18 days after leaf emergence (leaf area was then 5 cm2), after which both were constant, suggesting that Rubisco levels controlled net CO2 uptake. Instantaneous net CO2 uptake rates at noon for well-watered E. farinosa in the glasshouse at different temperatures and light levels correctly predicted differences in daily net CO2 uptake at four seasonally diverse times for transplanted plants under irrigated conditions in the field but overpredicted the daily means by 13%. After this correction, seasonally adjusted net CO2 uptake per unit leaf area multiplied by the estimated monthly leaf area predicted that 42% of the net carbon gain was incorporated into plant dry weight over a 17-month period. The ecological success of E. farinosa apparently reflects an inherently high daily net CO2 uptake and retention of a substantial fraction of its leaf carbon gain. 相似文献
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Phloem versus xylem water and carbon flow between a developingdaughter cladode (flattened stem segment) and the underlyingbasal cladode of Opuntia ficus-indica was assessed using netCO2 uptake, transpiration, phloem sap concentration, and waterpotential of both organs as well as phloem and apoplastic tracers.A 14-d-old daughter cladode was a sink organ with a negativedaily net CO2 uptake; its water potential was higher than thatof the underlying basal cladode, implicating a non-xylem pathwayfor the water needed for growth. Indeed, the relatively dilutephloem sap (7.44% dry weight) of a basal cladode can supplyall the water (7.1 gd1) along with photosynthate neededfor the growth of a 14-d-old daughter cladode; about 3% of theimported water flowed back to the basal cladode via the xylem.In contrast, a 28-d-old daughter cladode was a source organwhose water potential was lower than that of its basal cladode,so the xylem can supply the water needed (25.7 g d1)for its growth; about 6% of the imported water flowed back tothe basal cladode along with photosynthate via the phloem. Thephloem tracer carboxyfluorescein occurred in the phloem of 14-d-olddaughter cladodes after its precursor was applied to basal cladodes.When applied to basal cladodes, the apoplastic tracers sulphorhodamineG (SR) and trisodium 8-hydroxy-1,3,6-pyrenetrisulphonate (PTS)failed to move into 14-d-old daughter cladodes within 5 h, butmoved into 28-d-old daughter cladodes within 2 h. SR and PTSmoved into basal cladodes within 2 h when applied to 14-d-olddaughter cladodes, but not within 5-6 h when applied to 28-d-olddaughter cladodes. The tracer experiments therefore confirmedthe patterns of water flow determined using water and carbonbudgets. Key words: Carboxyfluorescein, phloem-xylem water flow, source-sink water relations, suiphorhodamine G, trisodium 8-hydroxy-1,3,6-pyrenetnsulphonate 相似文献
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Bingyu Zhang Min Chen Xiaofen Zhang Hehui Luan Yingchuan Tian Xiaohua Su 《Transgenic research》2011,20(3):523-532
During the growing seasons of 2006–2008, feeding tests and field studies were conducted in Beijing, China, to investigate
the effects of transgenic Bacillus thuringiensis (Bt) poplar (BGA-5) expressing the Cry3A protein (0.0264–0.0326% of the total soluble protein) on target and non-target pests
and the arthropod community. The effects of BGA-5 on the target pest Plagiodera versicolora (Coleoptera, Chrysomelidae) and a non-target pest Clostera anachoreta (Lepidoptera, Notodontidae), were assessed under laboratory conditions. Total mortality of P. versicolora larvae fed with BGA-5 leaves was significantly higher than that of the control (P < 0.05). The exuviation index of P. versicolora larvae fed with BGA-5 tended to be higher than that of CK, but it was not significantly different. The pupation rate and
eclosion rate of the survived larvae fed with BGA-5 were lower than that of CK, but it was also not significantly different.
Additionally, no significant differences were detected in the mortality, exuviations index, pupation rate, or eclosion rate
of C. anachoreta fed with leaves of transgenic and non-transgenic poplars. Furthermore, the arthropod communities in the Bt poplar and CK
field stands were similar, as indicated by four diversity indices (Berge-Parker index, Shannon-Wiener indices, evenness index,
and Simpson’s inverted index) and the Bray-Curtis index. Therefore, the Bt-Cry3A poplar decreased damage by the target pest
(P. versicolora), had no effects on a non-target pest (C. anachoreta), and generally did not have any significant negative effect on the poplar arthropod community. 相似文献
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