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

Coleman, Mark D.

doi:10.1007/s11104-007-9375-5

Cited by 62 publications

(45 citation statements)

References 60 publications

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“…Samuelson et al (2004aSamuelson et al ( , 2008 demonstrated that increasing management intensity on loblolly pine (Pinus taeda L.) stands in Georgia increased above-and belowground (coarse root) biomass and foliar biomass in loblolly pine. Similar results were detected by Coleman (2007) in a study examining the effects of irrigation and fertilization on four woody crop species (sweetgum (Liquidambar styraciflua L.), loblolly pine, American sycamore (Platanus occidentalis L.) and eastern cottonwood (Populus deltoidies Bartr.). Thus, any land management that increases NPP, also potentially increases the organic matter input into the soil.…”

Section: Introductionsupporting

confidence: 82%

“…Fertilization has been shown to decrease loblolly pine fine root biomass (Maier and Kress, 2000) but increase turnover (King et al, 2002) on a nutrient deficient site. Coleman (2007) reported increases in fine root biomass with increasing resource availability for loblolly and sweetgum. Samuelson et al (2004aSamuelson et al ( , 2008 demonstrated that increasing management intensity on loblolly pine (Pinus taeda L.) stands in Georgia increased above-and belowground (coarse root) biomass and foliar biomass in loblolly pine.…”

Section: Introductionmentioning

confidence: 99%

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Soil carbon and nitrogen content and stabilization in mid-rotation, intensively managed sweetgum and loblolly pine stands

Johnsen

Samuelson

Sanchez

et al. 2013

Forest Ecology and Management

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Section: Introductionsupporting

confidence: 82%

Section: Introductionmentioning

confidence: 99%

Soil carbon and nitrogen content and stabilization in mid-rotation, intensively managed sweetgum and loblolly pine stands

Johnsen

Samuelson

Sanchez

et al. 2013

Forest Ecology and Management

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“…The site, plant materials, sampling methods, and experimental design were described previously (Coleman et al 2004b;Coyle and Coleman 2005;Coleman 2007); a brief description follows.…”

Section: Methodsmentioning

confidence: 99%

“…A detailed description of fine-root biomass sampling methods is provided by Coleman (2007). Briefly, we removed 4.9 cm diameter cores from 0-15, 15-45, and 45-105 cm depths.…”

Section: Fine Root Biomassmentioning

confidence: 99%

“…Whole stumps were dried and weighed in 2001, whereas fresh stump masses were measured in the field with subsamples removed to determine water mass in 2003. We estimated peripheral coarse root biomass by digging three random 0.19 m2 holes that were 30 cm deep within the sampled tree's growing space yet outside of the 1 m2 stump sampling area (Coleman 2007). All coarse roots (>5 mm) were collected from the samples and soil was rinsed prior to drying and weighing.…”

Section: Dormant Biomassmentioning

confidence: 99%

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Above- and below-ground biomass accumulation, production, and distribution of sweetgum and loblolly pine grown with irrigation and fertilization

2008

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Increased forest productivity has been obtained by improving resource availability through water and nutrient amendments. However, more stress-tolerant species that have robust site requirements do not respond consistently to irrigation. An important factor contributing to robust site requirements may be the distribution of biomass belowground, yet available information is limited. We examined the accumulation and distribution of above-and below-ground biomass in sweetgum (Liqrridambar sfyrac$lua L.) and loblolly pine (Pinus taeda L.) stands receiving irrigation and fertilization. Mean annual aboveground production after 4 years ranged from 2.4 to 5.1 ~g.ha-'.year' for sweetgum and from 5.0 to 6.9 ~g.ha-l.year-l for pine. Sweetgum responded positively to irrigation and fertilization with an additive response to irrigation + fertilization. Pine only responded to fertilization. Sweetgum root mass fraction (RME) increased with fertilization at 2 years and decreased with fertilization at 4 years. There were no detectable treatment differences in loblolly pine RMF. Development explained from 67% to 98% of variation in shoot versus root allometry for ephemeral and perennial tissues, fertilization explained no more than 5% of the variation in for either species, and irrigation did not explain any. We conclude that shifts in allocation from roots to shoots do not explain nutrient-induced growth stimulations.Rdsumd : Une augmentation de la productiviti de la forh a it6 obtenue en amkliorant la disponibiliti des ressources i l'aide d'amendements en eau et en nutriments. Cependant, les espkces plus tolirantes au stress ayant des exigences Bcologiques robustes ne riagissent pas de la mgme faqon i I'inigation. La distribution de la biomasse souterraine pourrait btre un facteur important contribuant aux exigences 6cologiques robustes. mais peu d'information est disponible. Nous avons itudi6 l'accumulation et la distribution de la biomasse akrienne et souterraine dans des peuplements de copalme d'AmMque (Liquidambar styracijZua L.) et de pin 1 encens (Pinus taeda L.) irriguis et fertilisks. La production adrienne annuelle moyenne apres quatre ans variait de 2,4 ?I 5,l Mg.ha-'an-' dans le cas du copalme d3Amirique et de 5,O B 6,9 Mgha-'.an-' dans le cas du pin 5 encens. Le copalme d'Amirique a riagi positivement B l'inigation et 1 la fertilisation tout en ayant une r6action additive lorsque ces deux traitements itaient appliquis. Le pin 1 encens a riagi uniquement 1 la fertilisation.La fraction de masse racinaire (FMR) du copalme d'Amirique augmentait avec la fertilisation aprks d e w ans et dirninuait avec la fertilisation aprhs 4 ans. Nous n'avons pas dktectk de diffkrence significative entre les traitements dans le cas de la FMR du pin 1 encens. La croissance a expliqu6 de 67 % B 98 % de la variation de l'allom6trie entre les pousses et les racines dans le cas des tissus iph6mkres et pirennes alors que la fertilisation n'a pas expliqui plus de 5 % de la variation chez I'une ou I'autre des dew espkces et que I'irrig...

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Split application of nutrients improve growth and yield of Huanglongbing‐affected citrus trees

Atta

Morgan

Mahmoud

2021

Soil Science Soc of Amer J

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 Split application of ground applied essential nutrients increase the availability of nutrients and decrease higher nutrient requirements. Split application of essential nutrients improves the availability and uptake of nutrients for adversely affected HLB-induced root density citrus trees, thus decrease leaching and reduce downstream ecosystems. The availability of essential nutrients increases vegetative growth. Vegetative growth improves fruit yield and quality.

show abstract

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

Cited by 62 publications

References 60 publications

Soil carbon and nitrogen content and stabilization in mid-rotation, intensively managed sweetgum and loblolly pine stands

Soil carbon and nitrogen content and stabilization in mid-rotation, intensively managed sweetgum and loblolly pine stands

Above- and below-ground biomass accumulation, production, and distribution of sweetgum and loblolly pine grown with irrigation and fertilization

Split application of nutrients improve growth and yield of Huanglongbing‐affected citrus trees

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