Forest production responses to irrigation and fertilization are not explained by shifts in allocation

Coyle, David R.; Coleman, Mark D.

doi:10.1016/j.foreco.2004.11.022

Cited by 141 publications

(148 citation statements)

References 69 publications

(81 reference statements)

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“…5), they may be important for other species which are prone to specific nutrient deficiencies (e.g., Ca in tomatoes) or sensitivities (e.g., Na in beans), and therefore additional research with a wider variety of poplar clones and other crops is recommended. Such studies should account for the initial cutting diameter and changes in biomass allocation associated with plant development, which were found to have significant influences on tree growth in this study and are consistent with previous research [29,30]. While vector analysis suggested possible pre-fertilizer transfer of N (biochar and vermiculite treatments) and Ca (vermiculite treatment) from the shoots to other tissues (see Fig.…”

Section: Discussionsupporting

confidence: 90%

“…In addition, the nutrient content of each tissue (determined by multiplying the measured nutrient concentration by the dry weight of the tissue) and total biomass (determined by summing the dry weights of the tissues) were similarly evaluated, again with initial cutting diameter as a covariate. For shoot/root biomass ratio, shoot biomass was used as the covariate based on previous research showing the influence of tree development on biomass allocation [30]. The potting mixes were tested for differences in pH, CEC, ECEC, and nutrient concentrations and contents.…”

Section: Analysis Of Variancementioning

confidence: 99%

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Biochar as a Substitute for Vermiculite in Potting Mix for Hybrid Poplar

2013

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The purpose of this study was to evaluate biochar as a substitute for vermiculite in potting mixes for unrooted vegetative cuttings of hybrid poplar as represented by the clone 'NM6' (Populus nigra L. × Populus suaveolens Fischer subsp. maximowiczii A. Henry). We compared three treatments (peat moss (control), peat moss mixed with vermiculite, and peat moss mixed with biochar) at three times (pre-experiment, pre-fertilizer, and post-fertilizer). The biochar and vermiculite mixes had significantly higher cation exchange capacity (CEC) and pre-experiment exchangeable K than the control. Trees grown in the biochar and vermiculite mixes had significantly higher shoot K than the control at pre-fertilizer and post-fertilizer and significantly higher shoot and total biomass at post-fertilizer. The biochar mix was also associated with lower root biomass and higher shoot/root biomass ratio than the vermiculite mix at postfertilizer. Vector analysis indicated that all treatments were deficient in N at pre-fertilizer, and the control was also deficient in K at pre-fertilizer and post-fertilizer. Linear regression confirmed that shoot biomass was strongly correlated (R 2 =0.97) with N and K uptake (in addition to initial cutting diameter), also, root biomass was strongly correlated (R 2 =0.96) with potting mix CEC (in addition to shoot biomass). Luxury consumption of K at pre-fertilizer indicates that the increases in shoot and total biomass observed with the biochar and vermiculite treatments arise from this nutrient being "pre-loaded" in both mixes. We conclude that biochar provides benefits equivalent to vermiculite in terms of key nutrient availability and total biomass productivity.

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Section: Discussionsupporting

confidence: 90%

Section: Analysis Of Variancementioning

confidence: 99%

Biochar as a Substitute for Vermiculite in Potting Mix for Hybrid Poplar

2013

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“…The similar result was also found by Fernández-García et al (2014) and Glaeser et al (2016). However, Li et al (2016) didn't find the significant change in root/shoot ration for R. chinensis, which may be controlled by the genes in plants (Coyle and Coleman, 2005).…”

Section: Discussionsupporting

confidence: 77%

Effects of salt stress on eco-physiological characteristics in Robinia pseudoacacia based on salt-soil rhizosphere

Mao

Zhang

Cao

et al. 2016

Science of The Total Environment

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Robinia pseudoacacia is the main arbor species in the coastal saline-alkali area of the Yellow River Delta. Because most studies focus on the aboveground parts, detailed information regarding root functioning under salinity is scare. Root traits of seedlings of R. pseudoacacia including morphological, physiological and growth properties under four salinity levels (CK, 1‰, 3‰ and 5‰ NaCl) were studied by the pot experiments to better understand their functions and relationships with the shoots. The results showed that seedling biomass decreased by the reduction of root, stem and leaf biomass with the increase of salinity levels. With increasing salinity levels, total root length (TRL) and total root surface area (TRSA) decreased, whereas specific root length (SRL) and specific root area (SRA) increased. Salt stress decreased root activity (RA) and the maximum net photosynthetic rate (Amax) and increased the water saturation deficit (WSD) significantly in the body. Correlation analyses showed significantly correlations between root morphological and physiological parameters and seedling biomass and shoot physiological indexes. R. pseudoacacia seedlings could adapt to 1‰ salinity by regulating the root morphology and physiology, but failed in 5‰ salinity. How to adjust the water status in the body with decreasing water uptake by roots was an important way for R. pseudoacacia seedlings to adapt to the salt stress.

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“…Lateral roots in the 1 m2 area surrounding the stump are not included in this study of spatial distribution. The stump and attached lateral roots in the central squaremeter were included in total belowground biomass and previously reported with aboveground biomass (Coyle and Coleman 2005).…”

Section: Coarse Root Biomassmentioning

confidence: 99%

“…Forest growth process models commonly predict lower relative amounts of root tissue in response to high resource conditions (e.g. Landsberg and Waring 1997;Reynolds and Thomley 1982), yet observations are not always consistent with those predictions (Coyle and Coleman 2005). Defining primary production responses in relation to soil resource acquisition or understanding environmental controls of belowground carbon allocation requires greater understanding of root distribution under various levels of resource availability.…”

Section: Introductionmentioning

confidence: 99%

Spatial and temporal patterns of root distribution in developing stands of four woody crop species grown with drip irrigation and fertilization

Coleman

2007

Plant Soil

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In forest trees, roots mediate such significant carbon fluxes as primary production and soil C 0 2 efflux. Despite the central role of roots in these critical processes, information on root distribution during stand establishment is limited, yet must be described to accurately predict how various forest types, which are growing with a range of resource limitations, might respond to environmental change. This study reports root length density and biomass development in young stands of eastern cottonwood (Populus deltoidies Bartr.) and American sycamore (Platanus occidentalis L.) that have narrow, high resource site requirements, and compares them with sweetgum (Liquidambar styraczj7ua L.) and loblolly pine (Pinus taeda L.), which have more robust site requirements. Fine roots (<1 mm), medium roots (1 to 5 mm) and coarse roots (>5 mm) were sampled to determine spatial distribu-

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Forest production responses to irrigation and fertilization are not explained by shifts in allocation

Cited by 141 publications

References 69 publications

Biochar as a Substitute for Vermiculite in Potting Mix for Hybrid Poplar

Biochar as a Substitute for Vermiculite in Potting Mix for Hybrid Poplar

Effects of salt stress on eco-physiological characteristics in Robinia pseudoacacia based on salt-soil rhizosphere

Spatial and temporal patterns of root distribution in developing stands of four woody crop species grown with drip irrigation and fertilization

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