Ernie W Goins scite author profile

The sensitivity of yield and quality parameters to carbon dioxide concentration [CO 2 ] was determined for individual lines of hard-red spring wheat released in 1903, 1921, 1965 and 1996. All cultivars were evaluated with respect to growth and vegetative characteristics, grain yield and nutritional quality in response to [CO 2 ] increases that corresponded roughly to the CO 2 concentrations at the beginning of the 20th century, the current [CO 2 ], and the future projected [CO 2 ] for the end of the 21st century, respectively. Leaf area ratio (cm 2 g À1 ) declined and net assimilation rate (g m 2 day À1 ) increased in response to increasing [CO 2 ] for all cultivars during early vegetative growth. By maturity, vegetative growth of all cultivars significantly increased with the increase in [CO 2 ]. Seed yield increased significantly as [CO 2 ] increased, with yield sensitivity to rising [CO 2 ] inversely proportional to the year of cultivar release. Greater [CO 2 ] yield sensitivity in older cultivars was associated with whole-plant characteristics such as increased tillering and panicle formation. Grain and flour protein, however, declined significantly with increasing [CO 2 ] and with year of release for all cultivars, although absolute values were higher for the older cultivars. Overall, these data indicate that yield response at the whole-plant level to recent and projected increases in [CO 2 ] has declined with the release of newer cultivars, as has protein content of grain and flour. However, if agronomic practice can be adapted to maximize individual plant performance, [CO 2 ] responsive characteristics of older cultivars could, potentially, be incorporated as factors in future wheat selection.

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Characterization of an urban-rural CO 2 /temperature gradient and associated changes in initial plant productivity during secondary succession

Ziska

2004

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To examine the impact of climate change on vegetative productivity, we exposed fallow agricultural soil to an in situ temperature and CO 2 gradient between urban, suburban and rural areas in 2002. Along the gradient, average daytime CO 2 concentration increased by 21% and maximum (daytime) and minimum (nighttime) daily temperatures increased by 1.6 and 3.3°C, respectively in an urban relative to a rural location. Consistent location differences in soil temperature were also ascertained. No other consistent differences in meteorological variables (e.g. wind speed, humidity, PAR, tropospheric ozone) as a function of urbanization were documented. The urban-induced environmental changes that were observed were consistent with most short-term (~50 year) global change scenarios regarding CO 2 concentration and air temperature. Productivity, determined as final above-ground biomass, and maximum plant height were positively affected by daytime and soil temperatures as well as enhanced [CO 2 ], increasing 60 and 115% for the suburban and urban sites, respectively, relative to the rural site. While long-term data are needed, these initial results suggest that urban environments may act as a reasonable surrogate for investigating future climatic change in vegetative communities.

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Elevated Atmospheric Carbon Dioxide and Weed Populations in Glyphosate Treated Soybean

Ziska

Goins

2006

Crop Science

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Although rising atmospheric carbon dioxide (CO 2 ) is known to stimulate the growth of agronomic weeds, the impact of increasing CO 2 on herbicide efficacy has not been elucidated for field-grown crops. Genetically modified soybean [Glycine max (L.) Merr.] (i.e., Round-up Ready soybean) was grown over a 2-yr period at ambient and projected levels of atmospheric carbon dioxide (CO 2 , 250 mmol mol 21 above ambient), with and without application of the herbicide, glyphosate [N-(phosphonomethyl)glycine], to assess the impact of rising atmospheric carbon dioxide concentration [CO 2 ] on chemical efficacy of weed control. For both years, soybean showed a significant vegetative response to elevated [CO 2 ], but no consistent effect on seed yield. For 2003, weed populations for all treatments consisted entirely of C 4 grasses, with no [CO 2 ] effects on weed biomass (unsprayed plots) or glyphosate efficacy (sprayed plots). However, in 2004, weed populations were mixed and included C 3 and C 4 broadleaves as well as C 4 grasses. In this same year, a significant increase in both C 3 broadleaf populations and total weed biomass was observed as a function of [CO 2 ] (unsprayed plots). In addition, a [CO 2 ] by glyphosate interaction was observed with significant C 3 broadleaf weed biomass remaining after glyphosate application. Overall, these data emphasize the potential consequences for CO 2 -induced changes in weed populations, biomass, and subsequent glyphosate efficacy in Round-up Ready soybean.

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Ernie W Goins

Quantitative and qualitative evaluation of selected wheat varieties released since 1903 to increasing atmospheric carbon dioxide: can yield sensitivity to carbon dioxide be a factor in wheat performance?

Characterization of an urban-rural CO 2 /temperature gradient and associated changes in initial plant productivity during secondary succession

Elevated Atmospheric Carbon Dioxide and Weed Populations in Glyphosate Treated Soybean

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