STUDIES ON THE TOLERANCE TO SO<sub>2</sub> OF GRASS POPULATIONS IN POLLUTED AREAS

Wilson, G. B.; Bell, J.N.B.

doi:10.1111/j.1469-8137.1985.tb02758.x

Cited by 38 publications

(23 citation statements)

References 15 publications

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“…Thus there is a penalty, or physiological cost, associated with heavymetal tolerance. There is also evidence that some form of cost is associated with resistance to SO # (Wilson & Bell, 1985 ;Bell, Ashmore & Wilson, 1991). The temporal variation that is characteristic of ozone pollution increases the importance of the relative performance of resistant and sensitive genotypes in both polluted and non-polluted environments (Roose, Bradshaw & Roberts, 1982 ;Pitelka, 1988).…”

Section: mentioning

confidence: 99%

The effects of nutrient limitation on the response of Plantago major to ozone

1998

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Most natural and semi-natural communities are limited by major nutrients such as nitrogen (N) or phosphorus (P), but most experiments on the effects of ozone on wild plants have used nutrient-rich composts or soil. In order to investigate interactions between ozone and low nutrient supply, two artificially selected lines (ozone-resistant and ozone-sensitive) of two populations Plantago major ssp. major L. were grown on a sandy loam, with (HN) and without (LN) addition of fertilizer. The soil was from a semi-natural grassland that has never been fertilized. Plants were exposed to either charcoal\Purafil2-filtered air (CF l 5 nl O $ l −" ) or 70 nl O $ 1 −" 7 h d −" from the seedling stage to seed production.Poor growth (c. 25 % of that in HN) of the low-nutrient plants, and leaf concentrations of N and P showed that the LN plants were severely nutrient-limited. In addition to affecting the total dry mass of the plants, the nutrient supply altered seed production, reproductive effort (number of seeds per total mass) and root-to-shoot allocation. Exposure to ozone had significant effects on physiology, growth, and seed production that varied with population, selection line, time, and plant development. There also were significant interactions between ozone effects and nutrient regime. In the Lullington Heath population, ozone reduced plant dry weight at 4 wk only in the LN treatment, and in the sensitive line of the Bush population, seed production was reduced by ozone only in LN. Therefore, contrary to what was expected, in the present experiment, plants given the LN treatment were often more sensitive to ozone than those grown under the high-nutrient regime. This increase in sensitivity was despite the fact that the LN treatment reduced stomatal conductance and ozone flux. It is concluded that there are potentially important interactions between ozone and low nutrient supply that need further investigation, particularly under field conditions.

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Section: mentioning

confidence: 99%

The effects of nutrient limitation on the response of Plantago major to ozone

1998

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“…This raises the possibility that there has been selection in favour of resistance. There is evidence that O3 has led to selection in some tree species (Berrang et aL, 1986;Scholz, 1986) but the evidence is stronger for other air pollutants especially SO^ (Taylor & Murdy, 1975;Horseman, Roberts & Bradshaw, 1978;Wilson & Bell, 1985;W'ilson & Bell, 1990). As selection would decrease the impact of Oy it is important to determine the kind of O3 climate that might lead to selection, and the speed of population response.…”

Section: Growth Effectsmentioning

confidence: 99%

The response of native, herbaceous species to ozone: growth and fluorescence screening

1992

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SUMMARYOzone concentrations in many parts of Europe exceed the proposed UN-ECE Critical Levels for the protection of ecosystems but there is so little known about the effects on native, herbaceous species, that it is presently impossible to judge what effect, if any, these concentrations are having on this group of plants. This paper reports the results of an initial screening of 32 taxa that was used to select a small number of species for further work. All were exposed to 70 nl 1"^ Og given for 7 h d"' for two weeks and the response measured in terms of nnean relative growth rate {R), the allometric root/shoot coefficient {K), and changes in induced chlorophyll fluorescence (/^).Only six species showed visible symptoms but 14 showed a significant reduction in R. There was no relationship between the extent of visible symptoms and growth reduction, confirming that visible symptoms are often of little value in determining growth sensitivity to O3 stress. There were marked differences within genera and within species; a population of Plantago major collected in Athens showed no effects, while a Derbyshire population, with a 24 % reduction in R, was the most sensitive of taxa tested, including Bel-W3 tobacco which has been specifically hred for O3 sensitivity.There was a significant regression of R\ change on the R of controls {R% = 12-4-104 x ^, P = 0-0007, r = -0-56), implying that > 30°(, of the variation in response between taxa was related to the inherent R; faster growing taxa tending to show a greater reduction in R on exposure to O3. It is tentatively suggested that this may be related to differences in stomatal conductance.Ozone caused a significant shift in K" in 14 taxa, with many of the biggest changes being in grasses. Although O3 reduced K in some taxa, contrary to several published accounts, it increased it in others, and in some there was an effect on K with no effect on R. Possible reasons for this are discussed.Chlorophyll fluorescence was examined as a tool for detecting Oj stress. The maximum rate of rise of induced fluorescence, Fj^, was very sensitive to O3 but showed a complex pattern of response dependent on species and time. Most taxa showed a significant change in Fj^, even when there was no effect of the O3 on R or K. Whilst the sensitivity of F^ makes it a useful method for in vivo detection of O3 stress, the complexity of the response makes it very difficult to quantify and use for comparisons between species.

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“…capillaris tor evolution of tolerance to a number of environmental pollutants (I':rnst, 1974;Dueck et al, 1984;Wilson & Bell, 1985), .V. stricta appears to be less able to achieve tolerance, although the growth results of the Budel population indicate a significant growth increase following exposure to SO,, dioxide and NH3.…”

Section: Discussionmentioning

confidence: 99%

“…The evolution of tolerance to acute injury by sulphur dioxide is a more rapid process than resistance to chronic injury (Wilson & Bell, 1986), the former taking place within 3-5 years (Wilson & Bell, 1985) and the latter within 17-25 years (Ayazloo & Bell, 1981). In view of the data presented here, resistance to chronic injury in A. capillaris may be present (Tables 2 and 3), but certainly not to acute injury (Table 4).…”

Section: Discussionmentioning

confidence: 99%

Adaptation of grasses in the Netherlands to air pollution

1988

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SUMMARYIn three separate experiments, the response of three populations of Agrostis capillaris L., Nardus stricta L., and Lolium perenne L., from areas differing in ambient air pollution concentrations, were examined in experimental fumigations using SO.^, O.,, NO, and NH.,. Growth of .4. capillaris generally increased following the fumigations, except at the highest pollutant concentrations (120/(g m •' (),,, alone or combined with 150//g m •' SO, and 35 //g m -NO.j). (Jrow-th of each population of A^. stricta was stimulated by the SO, and NH., combination, but vvas significantly increased only in the poptilations originating from the ri-iost heavily polluted of the three areas. The growth of L. perenne was not inhibited by any air pollutant or combination of pollutants. f3espite a low grow-th rate in clean air and a large ati-iount of within-population variation, hiomass production was significantly stimulated by the highest pollutant mixture.1 he response of each species to the experimental treatn-ients depended in part on the location from which it originated. This site-dependent (population) response differed between species, suggesting that the selective processes induced by these air pollutant concentrations were insufficient for a clear-cut adaptation to gaseous air pollutants.

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STUDIES ON THE TOLERANCE TO SO₂ OF GRASS POPULATIONS IN POLLUTED AREAS

Cited by 38 publications

References 15 publications

The effects of nutrient limitation on the response of Plantago major to ozone

The effects of nutrient limitation on the response of Plantago major to ozone

The response of native, herbaceous species to ozone: growth and fluorescence screening

Adaptation of grasses in the Netherlands to air pollution

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STUDIES ON THE TOLERANCE TO SO2 OF GRASS POPULATIONS IN POLLUTED AREAS

Cited by 38 publications

References 15 publications

The effects of nutrient limitation on the response of Plantago major to ozone

The effects of nutrient limitation on the response of Plantago major to ozone

The response of native, herbaceous species to ozone: growth and fluorescence screening

Adaptation of grasses in the Netherlands to air pollution

Contact Info

Product

Resources

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STUDIES ON THE TOLERANCE TO SO₂ OF GRASS POPULATIONS IN POLLUTED AREAS