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Changes in soil carbon and nitrogen associated with switchgrass productionLobo Alonzo, Porfirio Jose 15 November 2004 (has links)
Greater knowledge of the short- and long-term effects of biomass production practices on soil biological and chemical properties is needed to determine influences on sustainable land management. Soil samples under switchgrass (Panicum virgatum L.), other forage grasses, cultivated crops, and forest were collected seasonally at six locations. Soil organic C (SOC), total N, soil microbial biomass C (SMBC) and N (SMBN), soil mineralizable C and N, and basal soil respiration (BSR) were in general greatest under long-term coastal bermudagrass [Cynodon dactylon (L.) Pers.] pasture (>40 years), second highest under Alamo switchgrass and kleingrass (Panicum coloratum L.) planted in 1992 and forest, followed by Alamo switchgrass planted in 1997, and was lowest under the cultivated soils. Soil organic C at 0-5 cm was 42-220% greater in soils under Alamo switchgrass planted in 1992 than cultivated soils, except at College Station where SOC values under Alamo planted in 1992 and the cultivated rotation were not significantly different. Although the rotation treatment is cultivated at this location, two high residue crops are used, wheat (Triticum aestivum L.) and sorghum [Sorghum bicolor (L.) Moench.]. Similar trends were noted for total N, SMBC, SMBN, mineralizable C and N, BSR, and the ratio of SMBC/SOC. Insufficient information was collected in this study to determine whether the parameters evaluated for forest and switchgrass were different. In addition to its high yield potential, adaptation to marginal sites and tolerance to water and nutrient limitations, switchgrass appeared to be a competitive crop in terms of land sustainability, resulting in enhanced soil quality characteristics compared to long-term cultivated soils.
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Changes in soil carbon and nitrogen associated with switchgrass productionLobo Alonzo, Porfirio Jose 15 November 2004 (has links)
Greater knowledge of the short- and long-term effects of biomass production practices on soil biological and chemical properties is needed to determine influences on sustainable land management. Soil samples under switchgrass (Panicum virgatum L.), other forage grasses, cultivated crops, and forest were collected seasonally at six locations. Soil organic C (SOC), total N, soil microbial biomass C (SMBC) and N (SMBN), soil mineralizable C and N, and basal soil respiration (BSR) were in general greatest under long-term coastal bermudagrass [Cynodon dactylon (L.) Pers.] pasture (>40 years), second highest under Alamo switchgrass and kleingrass (Panicum coloratum L.) planted in 1992 and forest, followed by Alamo switchgrass planted in 1997, and was lowest under the cultivated soils. Soil organic C at 0-5 cm was 42-220% greater in soils under Alamo switchgrass planted in 1992 than cultivated soils, except at College Station where SOC values under Alamo planted in 1992 and the cultivated rotation were not significantly different. Although the rotation treatment is cultivated at this location, two high residue crops are used, wheat (Triticum aestivum L.) and sorghum [Sorghum bicolor (L.) Moench.]. Similar trends were noted for total N, SMBC, SMBN, mineralizable C and N, BSR, and the ratio of SMBC/SOC. Insufficient information was collected in this study to determine whether the parameters evaluated for forest and switchgrass were different. In addition to its high yield potential, adaptation to marginal sites and tolerance to water and nutrient limitations, switchgrass appeared to be a competitive crop in terms of land sustainability, resulting in enhanced soil quality characteristics compared to long-term cultivated soils.
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Assessing resilience of agricultural system of Dhaka, BangladeshRashid, Farhana January 2016 (has links)
Due to rapid urbanization agricultural lands in metropolitan areas are shrinking. As a result our cities are getting more dependent on distant places for food, which is making the food system vulnerable. In the context of rapid urbanization and climate change a resilient agricultural system of Dhaka could be one of the key to ensure a sustainable future. To investigatethe impact of urbanization and climate change on the resilience of the agricultural system of Dhaka a resilience assessment of agricultural system of Dhaka has been done. The study followed the resilience assessment wordbook for practitioner as method of assessment. As methods to collect and analyze data field studies, interview, GIS analysis, policy analysis were conducted. This study shows that, urbanization is directly responsible for changes in both quality and quantity of the agricultural land of Dhaka whereas climate change does not affect directly. Even with this rapid urbanization there is still scope to take measures to make agricultural system resilient by preserving land within Dhaka metropolitan area. Therefore two Strategies have been proposed. First one is; increasing local food production without administrative reformation and the second; reducing the future demand by administrative and economic decentralization of Dhaka. Both of the strategies will require strong political will along with recognition of importance of agricultural land within the city boundary.
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Impacto do uso da terra nos atributos químicos e físicos de solos de rebordo do planalto - RS / Land use impact on soil chemical and phisical atributes of the sul-riograndense plateau borderZalamena, Jovani 29 February 2008 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Changes in land use can take into soil chemical and physical quality degradation. In the hillside areas
of the Rio Grande do Sul State (RS) land degradation vulnerability is elevated, due to the combination
of a strong undulated to mountainous relief and shallow soils. The general purpose of this study was
to evaluate the chemical and physical attributes of soils located in the Sul-riograndense Plateau
Border under different land uses. Two representative sites of the Plateau Border, characterized by
steep slope areas with prevalence of family farms, were selected (Silveira Martins county (SM) and
São João do Polêsine county (SJ)), and also a transition area situated between the Plateau Border
and the Medium Plateau (Júlio de Castilhos county (JC)). In SM soil samples were collected in areas
of no-tillage (PD), tillage (PC), reforestation (RF) and native forest (MN). In SJ soil samples were
collected under native forest (MN), secondary forest (MS), old cropping (LV), new cropping (LN) and
abandoned cropping (LA) areas. In JC the samples were collected under native forest (MN), native
prairie (CN) and no-tillage (PD) areas. Samples were collected from 0 to 10cm and from 10 to 20cm.
Modifications were observed in soil chemical and physical attributes due to the different land uses
when compared to the native forest. In systems that do not receive constant external additions, a
decrease in soil chemical fertility was observed. Soil organic matter content decreased as the land use
intensity increased. C-O-alquyl was the carbon group that presented the largest contribution in the
spectra of 13C NMR, independent of the land use system. The main physical alterations observed
were the decreases of soil macroporosity, total porosity and saturated hydraulic conductivity and the
increase in soil density when compared to soil natural conditions. Soil aggregation parameters did not
show to be good indexes to identify changes due to the land use in this study. / As mudanças na utilização das terras podem levar à degradação da qualidade química e física do
solo. Nas áreas de encosta do estado do Rio Grande do Sul (RS) a vulnerabilidade à degradação das
terras é elevada, devido a combinação de relevo forte ondulado a montanhoso e solos com pequena
profundidade efetiva. O objetivo geral deste trabalho foi avaliar as características químicas e físicas
do solo de áreas situadas no Rebordo do Planalto na região central do RS, sob diferentes usos da
terra. Para isso foram selecionadas duas áreas representativas da região denominada Rebordo do
Planalto, caracterizada por áreas de encosta com predomínio da agricultura familiar em pequena
escala (Silveira Martins (SM) e São João do Polêsine (SJ)) e uma área de transição entre o Rebordo
do Planalto e o Planalto Médio (Júlio de Castilhos (JC)). Em SM foram coletadas amostras de solo no
sistema de plantio direto (PD), plantio convencional (PC), reflorestamento (RF) e mata nativa (MN).
Em SJ foram coletadas amostras de solo sob os usos na mata nativa (MN), mata secundária (MS),
lavoura velha (LV), lavoura nova (LN) e lavoura abandonada (LA). Em JC as amostras foram
coletadas em áreas de mata nativa (MN), campo nativo (CN) e plantio direto (PD). As amostras foram
coletadas na profundidade de 0-10 e 10-20 cm. Através dos resultados obtidos, observaram-se
modificações nas características químicas e físicas do solo em função dos diferentes usos da terra,
ao comparar com a mata nativa. Em sistemas que não recebem adições constantes de fontes
externas, ocorreu uma depressão da fertilidade química. A matéria orgânica do solo teve diminuição
nos teores, conforme aumentou a intensidade de uso da terra. O grupo C-O-alquil foi o grupo de
carbono que apresentou a maior contribuição nos espectros de RMN 13C, independente do sistema
de uso da terra. As principais alterações físicas ocorridas em comparação com as condições naturais
do solo, foram diminuições da macroporosidade, porosidade total e condutividade hidráulica saturada
e aumento na densidade do solo. Os parâmetros de agregação do solo, neste trabalho, não se
mostraram como bons índices de avaliação para identificar mudanças em função dos diferentes usos
da terra.
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