Pappophorum vaginatum is the most abundant C4 perennial grass desirable to livestock in rangelands of northeastern Patagonia, Argentina. We hypothesized that (1) defoliation reduce net primary productivity, and root...Pappophorum vaginatum is the most abundant C4 perennial grass desirable to livestock in rangelands of northeastern Patagonia, Argentina. We hypothesized that (1) defoliation reduce net primary productivity, and root length density and weight in the native species, and (2) root net primary productivity, and root length density and weight, are greater in P. vaginatum than in the other, less desirable, native species (i.e., Aristida spegazzinfi, A. subulata and Sporobolus cryptandrus). Plants of all species were either exposed or not to a severe defoliation twice a year during two growing seasons. Root proliferation was measured using the cylinder method. Cylindrical, iron structures, wrapped up using nylon mesh, were buried diagonally from the periphery to the center on individual plants. These structures, initially filled with soil without any organic residue, were dug up from the soil on 25 April 2008, after two successive defoliations in mid-spring 2007. During the second growing season (2008-2009), cylinders were destructively harvested on 4 April 2009, after one or two defoliations in mid- and/or late-spring, respectively. Roots grown into the cylinders were obtained after washing the soil manually. Defoliation during two successive years did reduce the study variables only after plants of all species were defoliated twice, which supported the first hypothesis. The greater root net primary productivity, root length den- sity and weight in P. vaginatum than in the other native species, in support of the second hypothesis, could help to explain its greater abundance in rangelands of Argentina.展开更多
Aims We aimed to improve the understanding of the carbon and nutri-ent physiological responses and adaptation of semi-arid grassland plants to environmental changes.Methods We investigated plant leaf non-structural ca...Aims We aimed to improve the understanding of the carbon and nutri-ent physiological responses and adaptation of semi-arid grassland plants to environmental changes.Methods We investigated plant leaf non-structural carbohydrate(NSC=solu-ble sugars+starch),nitrogen(N)and phosphorus(P)levels in an Inner Mongolian semi-arid grassland community treated with water,N and P additions for 8 years.Two dominant grasses(Agropyron cris-tatum(L.)Gaertn.,Stipa krylovii Roshev.)and two forbs(Artemisia frigida Willd.,Potentilla bifurca L.)were analyzed.Important Findings Water addition decreased plant leaf N and P concentrations,whereas N and P addition increased them,indicating that the semi-arid grassland studied suffers from a shortage of N and P sup-ply.Both N and P addition decreased the levels of soluble sugars,starch and thus also NSC in plant leaves,which may be attributed to(i)increased carbohydrate consumption associated with a higher growth rate,and(ii)a dilution effect of greater plant size under N and P addition.Water addition tended to increase the leaf NSC levels both in the grasses(+9.2%)and forbs(+0.6%only),which may be a result of increased photosynthesis of plants with increased water availability.Under conditions of ambient and increased water supply in the present study,N addition resulted in an N/P ratio of>16 in the grasses but a significantly lower N/P ratio of<11 in the forb species.This finding implies that growth of the two grass spe-cies will be limited mainly by P availability but the forbs will still be mainly limited by N supply if N deposition,alone or in combination with summer precipitation,continues to increase as predicted in Inner Mongolia.展开更多
Aims Tiller recruitment of perennial grasses in mixed-grass prairie primar-ily occurs from belowground buds.Environmental conditions,such as temperature,soil moisture and grazing can affect bud outgrowth of both invas...Aims Tiller recruitment of perennial grasses in mixed-grass prairie primar-ily occurs from belowground buds.Environmental conditions,such as temperature,soil moisture and grazing can affect bud outgrowth of both invasive and native perennial grasses.Differential bud out-growth responses of native and invasive species to climate change and grazing could alter competitive interactions that have impli-cations for future land management.The aims of this work were to(i)compare how spring temperature altered bud outgrowth of native Pascopyrum smithii(Rydb.)Á.Löve(western wheatgrass)and introduced Bromus inermis Leyss.(smooth brome),(ii)compare how watering frequency altered bud outgrowth of these two species and(iii)evaluate how clipping interacts with spring temperature or watering frequency to affect P.smithii bud outgrowth.Methods Individual plants of B.inermis and P.smithii were harvested from North American mixed-grass prairie.Bud outgrowth from tillers of both species were evaluated under three spring temperature regimes(Average:12,18 and 24°C)and two watering frequen-cies(frequent and intermittent)in a growth chamber experiment.The response of P.smithii bud outgrowth to clipping was also examined.Important Findings Bromus inermis had more buds per tiller and initiated a greater pro-portion of these buds than P.smithii under all temperature and mois-ture conditions.Pascopyrum smithii bud development was reduced at 24°C.Intermittent watering did not significantly impact bud out-growth of either species.Clipping increased P.smithii bud mortality and reduced its bud development for the 2-week period of the study.The robust vegetative reproductive capacity of B.inermis under a range of environmental conditions is a key mechanism enabling the expansion of B.inermis into P.smithii-dominated mixed-grass prai-rie in North America.Mixed-grass prairie dominated by P.smithii experiencing repeated defoliation may require longer recovery times and be more susceptible to B.inermis invasion due to the negative impact of grazing on P.smithii bud outgrowth.Successful tiller recruitment and establishment of native perennial grasses via the bud bank will be necessary for mixed-grass prairie to be resilient to climate change,plant invasions and grazing.展开更多
基金National Council for Scientific and Technological Research of Argentina (CONICET PIP Ner. 00211)
文摘Pappophorum vaginatum is the most abundant C4 perennial grass desirable to livestock in rangelands of northeastern Patagonia, Argentina. We hypothesized that (1) defoliation reduce net primary productivity, and root length density and weight in the native species, and (2) root net primary productivity, and root length density and weight, are greater in P. vaginatum than in the other, less desirable, native species (i.e., Aristida spegazzinfi, A. subulata and Sporobolus cryptandrus). Plants of all species were either exposed or not to a severe defoliation twice a year during two growing seasons. Root proliferation was measured using the cylinder method. Cylindrical, iron structures, wrapped up using nylon mesh, were buried diagonally from the periphery to the center on individual plants. These structures, initially filled with soil without any organic residue, were dug up from the soil on 25 April 2008, after two successive defoliations in mid-spring 2007. During the second growing season (2008-2009), cylinders were destructively harvested on 4 April 2009, after one or two defoliations in mid- and/or late-spring, respectively. Roots grown into the cylinders were obtained after washing the soil manually. Defoliation during two successive years did reduce the study variables only after plants of all species were defoliated twice, which supported the first hypothesis. The greater root net primary productivity, root length den- sity and weight in P. vaginatum than in the other native species, in support of the second hypothesis, could help to explain its greater abundance in rangelands of Argentina.
基金The National Natural Science Foundation of China(41371076,31370009)the National Key Basic Research Program of China(2011CB403204)the State Key Laboratory of Forest and Soil Ecology(LFSE2013-01).
文摘Aims We aimed to improve the understanding of the carbon and nutri-ent physiological responses and adaptation of semi-arid grassland plants to environmental changes.Methods We investigated plant leaf non-structural carbohydrate(NSC=solu-ble sugars+starch),nitrogen(N)and phosphorus(P)levels in an Inner Mongolian semi-arid grassland community treated with water,N and P additions for 8 years.Two dominant grasses(Agropyron cris-tatum(L.)Gaertn.,Stipa krylovii Roshev.)and two forbs(Artemisia frigida Willd.,Potentilla bifurca L.)were analyzed.Important Findings Water addition decreased plant leaf N and P concentrations,whereas N and P addition increased them,indicating that the semi-arid grassland studied suffers from a shortage of N and P sup-ply.Both N and P addition decreased the levels of soluble sugars,starch and thus also NSC in plant leaves,which may be attributed to(i)increased carbohydrate consumption associated with a higher growth rate,and(ii)a dilution effect of greater plant size under N and P addition.Water addition tended to increase the leaf NSC levels both in the grasses(+9.2%)and forbs(+0.6%only),which may be a result of increased photosynthesis of plants with increased water availability.Under conditions of ambient and increased water supply in the present study,N addition resulted in an N/P ratio of>16 in the grasses but a significantly lower N/P ratio of<11 in the forb species.This finding implies that growth of the two grass spe-cies will be limited mainly by P availability but the forbs will still be mainly limited by N supply if N deposition,alone or in combination with summer precipitation,continues to increase as predicted in Inner Mongolia.
基金This work was supported by the US Forest Service,Rocky Mountain Research Station.
文摘Aims Tiller recruitment of perennial grasses in mixed-grass prairie primar-ily occurs from belowground buds.Environmental conditions,such as temperature,soil moisture and grazing can affect bud outgrowth of both invasive and native perennial grasses.Differential bud out-growth responses of native and invasive species to climate change and grazing could alter competitive interactions that have impli-cations for future land management.The aims of this work were to(i)compare how spring temperature altered bud outgrowth of native Pascopyrum smithii(Rydb.)Á.Löve(western wheatgrass)and introduced Bromus inermis Leyss.(smooth brome),(ii)compare how watering frequency altered bud outgrowth of these two species and(iii)evaluate how clipping interacts with spring temperature or watering frequency to affect P.smithii bud outgrowth.Methods Individual plants of B.inermis and P.smithii were harvested from North American mixed-grass prairie.Bud outgrowth from tillers of both species were evaluated under three spring temperature regimes(Average:12,18 and 24°C)and two watering frequen-cies(frequent and intermittent)in a growth chamber experiment.The response of P.smithii bud outgrowth to clipping was also examined.Important Findings Bromus inermis had more buds per tiller and initiated a greater pro-portion of these buds than P.smithii under all temperature and mois-ture conditions.Pascopyrum smithii bud development was reduced at 24°C.Intermittent watering did not significantly impact bud out-growth of either species.Clipping increased P.smithii bud mortality and reduced its bud development for the 2-week period of the study.The robust vegetative reproductive capacity of B.inermis under a range of environmental conditions is a key mechanism enabling the expansion of B.inermis into P.smithii-dominated mixed-grass prai-rie in North America.Mixed-grass prairie dominated by P.smithii experiencing repeated defoliation may require longer recovery times and be more susceptible to B.inermis invasion due to the negative impact of grazing on P.smithii bud outgrowth.Successful tiller recruitment and establishment of native perennial grasses via the bud bank will be necessary for mixed-grass prairie to be resilient to climate change,plant invasions and grazing.
