Calcium addition at the Hubbard Brook Experimental Forest increases sugar storage, antioxidant activity and cold tolerance in native red spruce (Picea rubens)

Halman, Joshua M.; Schaberg, Paul G.; Hawley, Gary J.; Eagar, Christopher

doi:10.1093/treephys/28.6.855

Cited by 56 publications

(54 citation statements)

References 65 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…All the plant growth parameters studied the plant height, leaf area, fresh weight and dry weight were decreased significantly at all acidity levels with respect to the control set and highest reduction were observed at pH 2.0 level ( Table 2). The adverse effects of simulated acid rain on plant growth parameters on several crops were observed by (Halman et al, 2008;Evans et al, 1997;Banwart et al, 1990).…”

Section: Discussionmentioning

confidence: 92%

Effects of Simulated Acid Rain on Growth and Yield of Cassava Manihot esculenta (Crantz)

Odiyi¹,

Bamidele²

2013

JAS

View full text Add to dashboard Cite

Southern Nigeria is a major cassava producing area that has been subjected to air pollution from increasing industrial activities and population explosion in the coastal towns and cities. The level of pollution is not expected to change drastically in the immediate future. Investigations were carried out to study the changes in the morphology, survival, growth and yield of TMS 96/1672 cultivar of cassava Manihot esculenta (Crantz) to simulated acid rain. The plants were exposed to simulated acid rain of pH 2.0, 3.0, 4.0, 5.0, 6.0 and 7.0 (control) respectively. Simulated acid rain induced morphological changes including chlorosis, early leaf senescence, necrosis, leaf abscission, leaf folding and death. Plant height, leaf area, fresh weight, dry weight, relative growth rate, chlorophyll content and the harvest index was the highest at pH 7.0 (control) and significantly (p<0.05) decreased with increasing acidity. The results indicates that TMS 96/1672 cultivar of Manihot esculenta exhibited growth stimulation at low acidity of pH 2.0 and it is likely to be retarded in future due to rapid and uncontrolled industrialization.

show abstract

Section: Discussionmentioning

confidence: 92%

Effects of Simulated Acid Rain on Growth and Yield of Cassava Manihot esculenta (Crantz)

Odiyi¹,

Bamidele²

2013

JAS

View full text Add to dashboard Cite

show abstract

“…Persistent ET deviation throughout the fall and winter suggests a significant response of coniferous species to Ca fertilization. The health and foliar function of red spruce, the dominant conifer on W1, was notably improved by Ca addition there (29,33,34), and this species is known to photosynthesize and transpire on a year-round basis given favorable environmental conditions (40). Deficiencies of Ca impair guard cell physiology in red spruce (41), thus the Ca from wollastonite likely improved stomatal function and enhanced winter transpiration.…”

Section: Discussionmentioning

confidence: 99%

Decreased water flowing from a forest amended with calcium silicate

Green

Bailey

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

Acid deposition during the 20th century caused widespread depletion of available soil calcium (Ca) throughout much of the industrialized world. To better understand how forest ecosystems respond to changes in a component of acidification stress, an 11.8-ha watershed was amended with wollastonite, a calcium silicate mineral, to restore available soil Ca to preindustrial levels through natural weathering. An unexpected outcome of the Ca amendment was a change in watershed hydrology; annual evapotranspiration increased by 25%, 18%, and 19%, respectively, for the 3 y following treatment before returning to pretreatment levels. During this period, the watershed retained Ca from the wollastonite, indicating a watershed-scale fertilization effect on transpiration. That response is unique in being a measured manipulation of watershed runoff attributable to fertilization, a response of similar magnitude to effects of deforestation. Our results suggest that past and future changes in available soil Ca concentrations have important and previously unrecognized implications for the water cycle.

show abstract

“…However, the success and survival of red spruce in cold, high elevation forests have been threatened in recent decades as increased foliar freezing injury during winter has reduced crown health and tree growth, and spurred widespread tree mortality (DeHayes 1992;Johnson 1992). Considerable additional research has shown that acidic deposition contributes to environmental calcium (Ca) depletion that limits biological Ca concentrations in red spruce foliage, reduces foliar cold tolerance, and predisposes red spruce trees to winter injury and decline (DeHayes et al 1999;Schaberg et al 2000b;Hawley et al 2006;Halman et al 2008).…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, recent work has shown that the controlled partitioning and flow of Ca is an important component of basic biochemical systems that regulate plant growth and energy relations (e.g., Hepler 2005;Lautner and Fromm 2010). Thus, as Ca becomes environmentally depleted, resulting plant Ca limitations would most likely manifest themselves as disruptions in stress response to freezing, high aluminum (Al), manganese (Mn) and nitrogen (N) toxicity (Minocha et al 1996(Minocha et al , 1997(Minocha et al , 2000Wargo et al 2002;Bauer et al 2004;Halman et al 2008), and altered energy relations (e.g., carbon storage and growth; Huggett et al 2007;Halman et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Calcium addition at the Hubbard Brook Experimental Forest increases the capacity for stress tolerance and carbon capture in red spruce (Picea rubens) trees during the cold season

Schaberg

Minocha

Long

et al. 2011

Trees

View full text Add to dashboard Cite

Red spruce (Picea rubens Sarg.) trees are uniquely vulnerable to foliar freezing injury during the cold season (fall and winter), but are also capable of photosynthetic activity if temperatures moderate. To evaluate the influence of calcium (Ca) addition on the physiology of red spruce during the cold season, we measured concentrations of foliar polyamines and free amino acids (putative stressprotection compounds), chlorophyll (a key photosystem component), and sapwood area (a proxy for foliar biomass), for trees in Ca-addition (CaSiO 3 added) and Cadepleted (reference) watersheds at the Hubbard Brook Experimental Forest (NH, USA). Ca-addition increased concentrations of the amino acids alanine and c-aminobutyric acid (GABA) and the polyamines putrescine (Put) and spermidine (Spd) in November, and Put in February relative to foliage from the reference watershed. Consistent with increased stress protection, foliage from the Caaddition watershed had higher total chlorophyll and chlorophyll a concentrations in February than foliage from the reference watershed. In contrast, foliage from the reference watershed had significantly lower glutamic acid (Glu) and higher alanine (Ala) concentrations in February than foliage from the Ca-addition watershed. Imbalances in Ala:Glu have been attributed to cold sensitivity or damage in other species. In addition to concentration-based differences in foliar compounds, trees from the Ca-addition watershed had higher estimated levels of foliar biomass than trees from the reference watershed. Our findings suggest that Caaddition increased the stress tolerance and productive capacity of red spruce foliage during the cold season, and resulted in greater crown mass compared to trees growing on untreated soils.

show abstract

Calcium addition at the Hubbard Brook Experimental Forest increases sugar storage, antioxidant activity and cold tolerance in native red spruce (Picea rubens)

Cited by 56 publications

References 65 publications

Effects of Simulated Acid Rain on Growth and Yield of Cassava Manihot esculenta (Crantz)

Effects of Simulated Acid Rain on Growth and Yield of Cassava Manihot esculenta (Crantz)

Decreased water flowing from a forest amended with calcium silicate

Calcium addition at the Hubbard Brook Experimental Forest increases the capacity for stress tolerance and carbon capture in red spruce (Picea rubens) trees during the cold season

Contact Info

Product

Resources

About