Water use and wood productivity of Eucalyptus grandis plantations: effects of management, water supply and soil texture / Uso da água e a produtividade de plantações de Eucalyptus grandis: efeito do manejo e das características do solo

Deus Junior, José Carlos de

28 June 2019

Water availability is a strategy resource for forest plantation. Many authorities and researches are concerned about the water use and the impact of forest plantation. Water use and water use efficiency have been measuring in all over the world. High productivity of Eucalyptus sp plantation are depend of environmental resources such water, nutrients, light and also genotype resource efficiency. High water use is also associated with high productivity and water use efficiency. Many reports were published about water use in eucalyptus plantation. Water use might vary among 1100 mm to 1300 mm for eucalyptus plantation. Climate conditions, soil characteristics and forest management might influence water use. Currently, studies aim to understand hydrology cycle at the leaf, trees and on landscape scale. Previous studies showed that K fertilizer increase water demand. Leaf biomass and LAI also increase due to K fertilizer application, which suggest increase in water use. Eucalyptus forest plantation may also decrease water discharge in catchment, which might decrease water availability in local scale. However, transpiration varied within soil moisture, precipitation, temperature, atmosphere conditions, fertilizer application, genotype and latitude. The main objective of forest managers was often find a technique regime which forester may use to achieve the target growth rate. Nowadays, it is important to manage the forest taking to account local resource supply, local climate condition and resource availability. These strategies might increase the sustainability of forest plantation. Measurement of physiological functioning might help forests manager to understand the growth response of our forest as result of climate condition and also planning new strategies to increase forest sustainability. / A alta produtividade das florestas de Eucalyptus sp está diretamente associada aos recursos disponíveis no ambiente como água, nutrientes e luz, como também pelo uso eficiente dos recursos por diferentes genótipos. Diversos trabalhos foram realizados sobre o uso da água das florestas de eucalipto. Pesquisadores e gestores florestais sempre são questionados sobre o uso da água e a eficiência do uso da água pelas florestas de eucalipto. Diversos trabalhos mostraram que o uso da água em florestas de eucalipto podem alcançar 1100 mm a 1300 mm. No entanto, essas estimativas podem variar em função das condições edafoclimáticas e de manejo da floresta O objetivo principal dos estudos atuais é entender a dinâmica do ciclo da água em diferentes escalas da floresta, na folha, a árvore e na escala da bacia hidrográfica. Alguns estudos vêm mostrando que a adubação, em particular com potássio, também pode aumentar a demanda de água por parte das árvores. O K propicia aumento de biomassa foliar e IAF das plantas, sugerindo aumento da transpiração das árvores. Estudos na escala da bacia hidrográfica, mostraram que bacias hidrográficas ocupadas por florestas de eucalipto podem reduzir o fluxo superficial dos cursos da água como também o estoque de água nas diferentes camadas do solo, o que pode comprometer a disponibilidade hídrica numa escala local. Por outro lado, alguns trabalhos mostraram que os impactos das florestas plantadas nos recursos hídricos dependem do regime pluviométrico local. Outros fatores podem influenciar o uso da água pelas florestas tais como a capacidade de retenção de água no solo, condições atmosféricas, espaçamento e genótipos. O principal objetivo dos gestores florestais, frequentemente, tem sido a busca por uma técnica de manejo florestal que permita o alcance de altas taxas de produtividade dos genótipos plantados. Atualmente, o manejo florestal não leva em conta a disponibilidade dos recursos ambientais, principalmente a água por meio do regime pluviométrico. Essas estratégias são importantes para aumentar a sustentabilidade das florestas plantadas, principalmente em áreas em que a disponibilidade de água é crítica. A compreensão da dinâmica dos parâmetros fisiológicos pode ajudar os gestores florestais a entenderem as respostas das árvores em função das condições climáticas e planejar estratégias que possam aumentar a sustentabilidade dos plantios florestais de Eucalyptus sp.

Condutância estomática

Eficiência do uso da água

Eucalyptus forest management

Fotossíntese

Photosynthesis

Plantações de eucalipto

Stomatal conductance

Uso da água

Water deficit

Water use

Water use efficiency

Sustainable grassland herbage production under drought stress - the role of plant species number and functional group composition

Küchenmeister, Frank

07 May 2013

Grünlandfutter mit einem hohen Ertrag und gutem Futterwert ist eine Grundvoraussetzung für die effiziente Produktion von wiederkäuenden Nutztieren. Im Zuge des prognostizierten Klimawandels werden sich die Niederschlagsmuster ändern und das Auftreten von Extremwetterereignissen, wie temporärer Trockenheit, wird sich erhöhen. Besonders produktives Grünland benötigt aber eine ausreichende und regelmäßige Wasserversorgung während der Wachstumsperiode. Deshalb werden die Futterproduktion von Grünland, die Ertragsstabilität und der Futterwert von temporärer Trockenheit beeinflusst werden. Aus diesem Grund sind Anpassungsstrategien nötig, um eine zukünftige und nachhaltige Grünlandfuttererzeugung zu sichern. Erhöhte pflanzliche Biodiversität wird oft als Möglichkeit angesehen, Funktionen von Ökosystemen, wie Produktivität und Futterwert, im Grünland zu verbessern. Es gibt eine fortlaufende Diskussion wie eine erhöhte Artenzahl auf Stress, besonders Trockenstress, reagiert und wie dabei Produktivität, Futterwert und Wassernutzung beeinflusst werden. Andere Untersuchungen zeigten, dass Artidentität und die Zusammensetzung der funktionellen Gruppen wichtige Faktoren für Produktivität und Futterwert sind. Auf Grund dessen haben wir von Juli 2009 bis Juni 2011 ein Trockenstressexperiment in einer Vegetationshalle durchgeführt. Verschiedene temporäre Trockenstressereignisse wurden in drei Aufwüchsen in zwei Vegetationsperioden durchgeführt. Die klimatischen Verhältnisse in der Vegetationshalle folgten normalen saisonalen Verläufen mit Frost im Winter und höheren Temperaturen im Sommer. Trockenstress wurde induziert, indem, nach einer anfänglichen Bewässerung, die Wasserversorgung für einen bestimmten Zeitraum eingestellt wurde. Die Wasserverfügbarkeit des Bodens konnte dabei immer kontrolliert werden. Für das Experiment wählten wir ertragsstarke und landwirtschaftlich nutzbare Arten des Grünlands der gemäßigten Zonen aus. Die Arten wurden in Monokultur und Drei- sowie Fünfartenmischungen gesät und enthielten die funktionellen Gruppen Leguminose (Trifolium repens L.), Gras (Lolium perenne L., Dactylis glomerata L.) und Kraut (Plantago lanceolata L., Taraxacum officinale F.H. Wigg. agg.). Der von uns gewählt Umfang der Artenzahl zeigte schon in anderen Biodiversitätsexperimenten einen Einfluss auf die Produktion. Untersucht wurden die Effekte von Artenzahl und funktionellen Gruppen auf Ertrag, Ertragsstabilität, Wassernutzung und Futterwert (Rohprotein, wasserlösliche Kohlenhydrate, neutrale und saure Detergenzienfasern). Als Indikatoren für die Ertragsentwicklung und die agronomische Wassernutzungseffizienz (Verhältnis von Ertrag zu Wasserverbrauch) dienten der Stickstoffertrag und die Stickstoffkonzentration der Bestände sowie δ13C Signaturen, sowohl mit unlimitierter Wasserversorgung als auch mit Trockenstress. Überdies führten wir 2009 ein Kurzzeitfeldexperiment auf einem alten Grünlandbestand auf dem Versuchsgut der Universität Göttingen in Reliehausen durch. In diesem Versuch wurde ebenso der Einfluss von Trockenstress und Artenzahl auf den Ertrag und die Wassernutzung untersucht. Unsere Daten zeigten, dass Trockenstress die Produktivität verringert und die Wassernutzung beeinflusst, beides abhängig von der Stärke des Stresses. Bei moderatem Stress war die agronomische Wassernutzungseffizienz unverändert oder stieg leicht an, bei starkem Stress verringerte sie sich jedoch. Der Stickstoffertrag und die Stickstoffkonzentration waren brauchbare Indikatoren für die agronomische Wassernutzungseffizienz, wohingegen δ13C weniger geeignet war. Die agronomische Wassernutzungseffizienz wurde von Stickstoff erhöht. Es gab keinen oder nur einen sehr geringen Einfluss von Trockenstress auf den Futterwert. Saisonale Effekte hatten mehr Einfluss auf den Futterwert. Allgemein scheint der Ertragsrückgang wichtiger als die Veränderungen des Futterwerts zu sein. Die Artenzahl beeinflusste den Futterwert und die Ertragsstabilität über die Vegetationsperiode nicht. Mit Hilfe des “sampling effect“ (Probennahmeeffekt) können der manchmal positive Einfluss der Artenzahl auf den Ertrag und die agronomische Wassernutzungseffizienz und der Rückgang dieses Einflusses unter Trockenheit erklärt werden. Mit erhöhter Artenzahl stieg der Anteil der leistungsfähigen, aber trockenheitssensitiven Leguminose. Weiterhin gab es einen Hinweis, dass die Artenzahl die Geschwindigkeit des Wasserverbrauchs erhöht. Die Ergebnisse des Feldexperiments bekräftigten die Befunde bezüglich der Effekte des Trockenstresses, des Ertrages und der Wassernutzung. Aus diesen Gründen kann die „insurance hypothesis“ (Versicherungshypothese), die besagt, dass eine erhöhte Artenzahl Ökosystemfunktionen gegenüber Umweltveränderungen stabilisieren kann, nicht bestätigt werden. Jedoch waren die funktionellen Gruppen wichtige und bestimmende Faktoren der Leistung unter nicht Wasser limitierten Bedingungen und Trockenstress. Die Leguminose hatte besonders auf Ertrag, agronomische Wassernutzungseffizienz und Rohprotein einen positiven Einfluss, jedoch erhöhte sie auch den Wasserverbrauch und die saisonale Variabilität. Gräser stabilisierten den Ertrag und den Wasserverbrauch und erhöhten die wasserlöslichen Kohlenhydrate sowie die Faserfraktionen, während sie den Ertrag und die agronomische Wassernutzungseffizienz unter den stickstofflimitierten Bedingungen unseres Experiments verringerten. Die funktionelle Gruppe Kräuter zeigte ähnliche Ergebnisse bezüglich Ertrag und Wassernutzung, aber sie erhöhte das Rohprotein. Unsere Ergebnisse demonstrieren, dass die vorhergesagte Zunahme von Trockenstressereignissen die Produktion reduzieren und die Wassernutzung ändern wird. Änderungen im Futterwert werden dabei weniger wichtig als der Ertragsrückgang sein. Für die Produktion, die Wassernutzung und den Futterwert wird die Artenanzahl weniger relevant sein als die funktionelle Zusammensetzung von Grünland. Deshalb wird eine angepasste Grasnarbenzusammensetzung für die Sicherung der Produktion von wiederkäuenden Nutztieren unter den Bedingungen des erwarteten Klimawandels Bedeutung erlangen.

630

Forbs

Grasses

Legume

Water use efficiency

Water use

Yield

Drought stress

13C

Crude protein

Water-soluble carbohydrates

NDF

ADF

Nutritive value

Diversity

Grassland

Land- und Forstwirtschaft (PPN621302791)

Características agronômicas e tecnológicas de variedades de sorgo sacarino e propriedades do solo em função de lâminas de irrigação por gotejamento / Agronomic and technological characteristics of varieties of sacred sorrow and soil properties in the function of drip irrigation blades

Silva, Patrícia Costa da

14 May 2018

Submitted by Patrícia Costa Silva (patypcs@yahoo.com.br) on 2018-07-30T19:35:52Z No. of bitstreams: 1 Tese_Patricia_Costa_Silva_2018_final.pdf: 1846241 bytes, checksum: b3112d63566f4acc8bf90ba51cfb28d2 (MD5) / Approved for entry into archive by Ana Lucia de Grava Kempinas (algkempinas@fca.unesp.br) on 2018-07-30T20:54:23Z (GMT) No. of bitstreams: 1 silva_pc_dr_botfca.pdf: 1846241 bytes, checksum: b3112d63566f4acc8bf90ba51cfb28d2 (MD5) / Made available in DSpace on 2018-07-30T20:54:23Z (GMT). No. of bitstreams: 1 silva_pc_dr_botfca.pdf: 1846241 bytes, checksum: b3112d63566f4acc8bf90ba51cfb28d2 (MD5) Previous issue date: 2018-05-14 / O cultivo de sorgo sacarino surgiu como alternativa para produção de massa destinada à fabricação de etanol, na entressafra, e em áreas de reforma do canavial e em áreas de rotação à outras culturas. Ainda são escassos estudos sobre a irrigação em sorgo sacarino, bem como os estudos que correlacionam lâminas de irrigação e a dinâmica dos nutrientes no solo e propriedades físicas. Este estudo teve como objetivos analisar o efeito da aplicação de lâminas de irrigação sob características tecnológicas e agronômicas de variedades de sorgo sacarino e nas propriedades do solo, e avaliar a eficiência do uso da água. O experimento foi conduzido em campo na área experimental da Universidade Estadual de Goiás, Câmpus de Santa Helena de Goiás. O delineamento adotado foi o de blocos casualizados com esquema fatorial 5x3, com 5 tratamentos, 3 cultivares de sorgo sacarino e 4 repetições. Os tratamentos foram constituídos por 5 lâminas de irrigação: 25, 50, 75, 100 e 125 % da evapotranspiração de cultura (ETc) e as variedades avaliadas foram BRS 511, CVSW 80007 e Silotec 20. O sistema de irrigação empregado foi o localizado por gotejamento. Os dados foram submetidos à análise de variância pelo teste F a 5% de significância. As médias para o fator variedades e propriedades do solo foram comparadas pelo teste de Tukey e para o fator lâminas de irrigação empregou-se a análise de regressão. Verificou-se que as lâminas de irrigação exerceram influência significativa nas características agronômicas e tecnológicas. A variedade BRS 511 adaptou-se melhor às condições edafoclimáticas locais com reflexo em maior altura de plantas, diâmetro de colmo, número de folhas e internódios, porcentagem de folhas, produtividade de colmos, massa verde da parte aérea, rendimento de caldo, produtividade de etanol e sólidos solúveis totais; e menor peso do bagaço úmido e teor de fibra industrial. Comparando-se as variedades em cada lâmina verificou-se variação a partir da lâmina 75% de reposição da evapotranspiração de cultura com ajustes linear e quadrático. A eficiência do uso da água (EUA) em todas as variedades e lâminas estudadas apresentou resposta linear decrescente, com maior EUA na lâmina de 25% da ETc. A variedade BRS 511 foi a mais recomendada para as condições edafoclimáticas da região avaliada e a lâmina mais indicada foi a equivalente a 100% da ETc. As lâminas de irrigação exerceram influência sobre a dinâmica das propriedades químicas no solo. Os maiores teores dos nutrientes foram encontrados na camada de 0-0,10 m, à medida que aumentou a disponibilidade hídrica; para as lâminas de 100 e 125 % da ETc houve aumento dos teores de nutrientes e de matéria orgânica do solo; entre as variedades e as camadas de solo houve variação somente para o potássio e o alumínio. As propriedades físicas não foram afetadas pelo cultivo das variedades e lâminas de irrigação, apenas pelas camadas amostradas. / Cultivation of sorghum emerged as an alternative for the production of mass destined to the manufacture of ethanol, in the off season, and in areas of reforestation of cane fields and in areas of rotation to other crops. There are still few studies on irrigation in sorghum, as well as studies that correlate irrigation slides and the dynamics of soil nutrients and physical properties. The objective of this study was to analyze the effect of the application of irrigation slides under the technological and agronomic characteristics of sorghum varieties and soil properties, and to evaluate the efficiency of water use. The experiment was conducted in the experimental area of the State University of Goiás, Campus of Santa Helena de Goiás. The experiment was a randomized complete block design with 5x3 factorial, with 5 treatments, 3 sorghum cultivars and 4 replicates. The treatments consisted of 5 irrigation slides: 25, 50, 75, 100 and 125% of crop evapotranspiration (ETc) and the varieties evaluated were BRS 511, CVSW 80007 and Silotec 20. The irrigation system was located by drip. The data were submitted to analysis of variance by the F test at 5% of significance. The averages for the factor varieties and soil properties were compared by the Tukey test and for the irrigation lamina factor the regression analysis was used. It was verified that the irrigation slides exerted significant influence on the agronomic and technological characteristics. The BRS 511 variety was better adapted to local edaphoclimatic conditions with higher plant height, stem diameter, number of leaves and internodes, leaf percentage, shoot yield, shoot shoot mass, broth yield, seed yield ethanol and total soluble solids; and lower weight of the wet cake and industrial fiber content. Comparing the varieties on each slide, a variation was observed from the 75% replacement blade of the crop evapotranspiration with linear and quadratic adjustments. Efficiency of water use in all varieties and slides studied presented a linear decreasing response, with a higher USA in the 25% ETc blade. The BRS 511 was the most recommended for the soil and climatic conditions of the evaluated region and the most indicated blade was the equivalent to 100% of the ETc. Irrigation slides influenced the dynamics of soil chemical properties. The highest levels of nutrients were found in the 0-0.10 m layer, as water availability increased; for the slides of 100 and 125% of the ETc there was an increase in nutrient and soil organic matter contents; between varieties and soil layers there was variation only for potassium and aluminum. The physical properties were not affected by cultivation of the irrigation varieties and slides, only by the sampled layers.

Sorghum bicolor (L.) Moench

Etanol

Sistema localizado

Eficiência do uso de água

Ethanol

Localized system

Water use efficiency

Water use efficiency

The role of education in shaping the attitudes of Saulspoort region communities towards the utilisation of water as an environmental resource

Sefike, Lillian Disebo

15 June 2004

South Africa is a water - scarce country and will be facing a serious water shortage by approximately 2020. The study, that aims to establish attitudes towards the use of water and to examine the role of education in ensuring responsible use of water, focuses on Moruleng village which was selected as representational of the 28 villages of Saulspoort region. The outcomes of the literature review which examined water consumption patterns in rural areas prompted the conducting of focus group interview with four categories of villagers from the Moruleng village. Personal observations supported by photographs and follow-up interviews with individuals featured in the photographs supplemented the interview data. The study evidenced that water consumption patterns in rural communities are indicative of attitudes. Villagers' attitudes towards water and its use are ambiguous. The study purposes to examine the possible options to inculcate positive attitudes towards water and its use through the recommendations contained in the study. / Educational Studies / M.Ed.(Environmental Education))

Education

Attitudes

Utilisation

Natural resources

sustainability/sustainable

Water use -- Public opinion

Allocation and use of water for domestic and productive purposes: an exploratory study from the Letaba river catchment

Masangu, T.G.

January 2009

Magister Economicae - MEcon / In this thesis, I explore the allocation and use of water for productive and domestic purposes in the village of Siyandhani in the Klein Letaba sub-area, and how the allocation and use is being affected by new water resource management and water services provision legislation and policies in the context of water reform. This problem is worth studying because access to water for domestic and productive purposes is a critical dimension of poverty alleviation.The study focuses in particular on the extent to which policy objectives of greater equity in resource allocation and poverty alleviation are being achieved at local level with the following specific objectives: to establish water resources availability in Letaba/Shingwedzi sub-region, specifically surface and groundwater and examine water uses by different sectors (e.g. agriculture, industry, domestic, forestry etc.,); to explore the dynamics of existing formal and informal institutions for water resources management and water services provision and the relationship between and among them; to investigate the practice of allocation and use of domestic water; to investigate the practice of allocation and use of irrigation water.The study concludes that there is a problem of water scarcity in the study area and that the water scarcity is caused by the growth in the population, specifically in the Giyani area; these problems are exacerbated by financial and institutional obstacles within local institutions of governance. The water scarcity is not, therefore, natural but anthropogenic in nature.The water scarcity is not felt by all sectors, however: some farmers have access to water for irrigation, while many others face great challenges in their farming activities.Overall, people in Siyandhani and surrounding villages surrounding villages in the Letaba Catchment do not have access to water because of human action, hence the use of the concept of manufactured scarcity. The lack of access to water, it is argued,leads to the violation of the human right to water. This study concludes that water reform, which is widely seen as a priority for South Africa, has not yet reached the villages of the Klein Letaba.

Water allocation

Water collection

Domestic water use

Agricultural water use

Water management institutions

Water services

Water allocation reform

Water scarcity

Right to water

Rural livelihoods

Water-oriented management in forest plantations: combining hydrology, dendrochronology and ecophysiology

Gualberto Fernandes, Tarcisio Jose

09 December 2015

Assessment of forest water-use (WU) is undoubtedly important and necessary, especially in water scarcity areas that are already suffering the main negative impacts of climate change. However, instead of just determining how much water is used by a forest, it is also important to evaluate how forest-WU responds to forest management practices such as thinning, a widely recognized alternative to promote improvements in the hydrologic balance while maintaining or improving forest resilience. Thus, this thesis proposes three integrated studies performed in an area of Aleppo pine subject to experimental thinning in Eastern Spain. The first study was modelling an artificial neural network (ANN) to estimate daily WU independently of forest heterogeneity provided by thinning. Stand WU was accurately estimated using climate data, soil water content and forest cover (correlation coefficient, R: 0.95; Nash-Sutcliffe coefficient, E: 0.90 and rootmean-square error, RMSE: 0.078mm/day). Then the ANN modelled was used for gapfilling when needed and those results were used in the following studies. The secondly study addressed the question of how tree-growth, WU and water balance changed as a consequence of thinning. To this end, the influence of thinning intensity and its effect at short-term (thinned in 2008) and at mid-term (thinned in 1998) on the water-balance components and tree-growth were investigated. The high-intensity thinning treatment showed significant increases in mean annual tree-growth from 4.1 to 17.3 cm2 yr -1 , a rate which was maintained in the mid-term. Mean daily WU ranged from 5 (control) to 18 (high intensity thinning) l tree-1 . However, when expressed on stand basis, daily WU ranged from 0.18 (medium intensity thinning) to 0.30 mm (control plot), meaning that in spite of the higher WU rates in the remaining trees, stand WU was reduced with thinning. Large differences were found in the water balance components between thinning plots and control. These differences might have significant implications to maintain forest resilience, and improve forest management practices. The third study, brings forth two interesting points and their responses to thinning, WU and intrinsic water-use efficiency (WUEi). First, the relationships between growth and climate were studied at mid-term in order to identify if thinning can improve forest resilience. Second, the relationships between WU and WUEi was explored to identify how these factors were affected by thinning at short-term. A substantial limitation of tree-growth imposed by climatic conditions was observed, although thinning changed the tree-growth-precipitation relationships. Significant differences in WUEi were found after thinning at mid-term, however no significant difference was observed at short-term. Despite this, in general WUEi decreased when precipitation increased, with different slopes for each thinning intensity. Different patterns of the relationship between WU and WUEi were found, being positive for thinned plots and negative for control plot at short-term. Finally this thesis suggest that thinning in Aleppo pine plantations is effective in changing the relationships between WU and WUEi, furthermore, this thesis introduces a novel contribution by looking at the inter-related effects on growth, WU, WUEi and water balance in Mediterranean forest subject to thinning. / Gualberto Fernandes, TJ. (2014). Water-oriented management in forest plantations: combining hydrology, dendrochronology and ecophysiology [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48476 / TESIS

Adaptive Forest Management

Artificial Neural Network

Forest hydrology

Hydrology-oriented Silviculture

Pinus halepensis Mill.

Tree tranpiration

Water-use

Water-use Efficiency

INGENIERIA HIDRAULICA

TECNOLOGIA DEL MEDIO AMBIENTE

Cover crops in no-tillage crop rotations in eastern and western Kansas

Arnet, Kevin Broc

January 1900

Master of Science / Department of Agronomy / Johnathon D. Holman / Kraig L. Roozeboom / Replacing fallow periods with cover crops can provide many benefits including soil quality improvements and reduced nitrogen fertilizer requirements. Field experiments were established near Garden City, KS with winter wheat and fallow phases as main plots, thirteen legume or non-legume cover crops, continuous winter wheat, and fallow as subplots, and cover crop termination method as sub-subplots. Treatments containing triticale had greatest water use efficiency (19.9 kg ha[superscript]-1 mm[superscript]-1) and aboveground biomass (3550 kg ha[superscript]-1), but subsequent winter wheat yields were reduced due to a reduction in volumetric water content. Increased soil residue through greater cover crop biomass resulted in increased precipitation storage efficiency during the fallow period, but water requirements to produce biomass depleted soil moisture more than growing a low biomass crop or fallow. In years of above-average precipitation, low biomass cover crops might be grown with little to no negative effect on subsequent wheat yields. A second field experiment was established near Manhattan, KS with fallow, double crop soybean, and four cover crop treatments planted after wheat harvest in a winter wheat-grain sorghum-soybean no-till cropping system, with five nitrogen treatments applied to the sorghum crop to estimate nitrogen contribution of the cover crops. Greatest above ground biomass production and nitrogen accumulation was observed with sorghum-sudan grass. At the 0 kg ha[superscript]-1 N rate, grain sorghum yields were reduced 1200 kg ha[superscript]-1 following sorghum-sudan grass, while all other cover crop treatments provided a 20-30 kg ha[superscript]-1 N equivalent benefit. Sorghum yields might be reduced following large biomass producing cover crops when nitrogen is limiting, but a small nitrogen benefit might be realized following low C:N ratio cover crops. Cover crop productivity and their subsequent effects on grain sorghum performance were evaluated in field studies established near Manhattan and Hutchinson, KS in 2008 and 2009. Sixteen summer or fall cover crop species were planted in no-tillage winter wheat stubble and evaluated for biomass production, nitrogen concentration, and nitrogen accumulation. Summer annual grass species produced the greatest biomass, 3392 kg ha[superscript]-1 and greater, and legume species accumulated the greatest amounts of nitrogen, averaging 43 kg ha[superscript]-1. Grain sorghum yields were 867 kg ha[superscript]-1 greater following summer cover crops compared to fall cover crops. Cover crops had a significant effect on sorghum performance, with yields 1240 kg ha[superscript]-1 greater following legume cover crops.

No-tillage

Cover crop

Water use

Agriculture, Agronomy (0285)

Agriculture, Soil Science (0481)

Water scarcity and electricity generation in South Africa

Wassung, Natalie

12 1900

Thesis (MPhil)--Stellenbosch University, 2010. / ENGLISH ABSTRACT: South Africa has a mean annual precipitation far lower than the global average. This is a fundamental constraint to development, especially when the country has already run out of surplus water and dilution capacity. To add further pressure, Southern Africa’s water resources are expected to decrease as a result of climate change. Despite the potential devastation, the country’s response to climate change has been limited. South Africa’s energy sector is dominated by coal power stations and is the country’s primary emitter of carbon dioxide. Given the significantly higher water usage of coal-fired power plants compared to that of most renewable energy power plants, the transition to a clean energy infrastructure might be more successfully motivated by water scarcity than by the promise of reduced carbon emissions. This article analyses more critically the impact of coal-fired electricity generation on South Africa’s water resources, by estimating a water-use figure that extends backwards from the power plant to include water used during extraction of the coal. This figure can then be compared to the water usage of alternative electricity generation options. It is then possible to estimate how much water could be saved by substituting these alternatives in place of additional coal-fired plants. / AFRIKAANSE OPSOMMING: Suid-Afrika se gemiddelde jaarlikse neerslag is baie laer as die wêreldwye gemiddelde. Dit plaas ’n wesenlike beperking op ontwikkeling, veral aangesien die land se surplus water- en verdunningskapasiteit reeds uitgeput is. Om die saak verder te vererger, word verwag dat Suidelike Afrika se waterbronne gaan kleiner word as gevolg van klimaatsverandering. Ten spyte van die potensiële ramp, was die land se reaksie op klimaatsverandering tot dusver baie beperk. Steenkoolkragstasies, wat Suid-Afrika se energiesektor oorheers, is die land se primêre bron van koolstofdioksieduitlating. Gegewe die beduidend hoër waterverbruik van steenkoolkragstasies teenoor dié van die meeste kragstasies wat met hernubare energie werk, kan die verandering na ’n skoonenergie-infrastruktuur meer suksesvol gemotiveer word deur waterskaarste as deur die belofte van verminderde koolstofuitlatings. Hierdie artikel analiseer die impak van steenkoolgedrewe elektrisiteitsopwekking op Suid-Afrika se waterbronne meer krities deur te beraam hoeveel water verbruik word van die kragstasie terug tot by die ontginning van die steenkool. Hierdie syfer kan dan vergelyk word met die waterverbruik van alternatiewe kragopwekkingsopsies. Dit is dan moontlik om te beraam hoeveel water gespaar kan word deur hierdie alternatiewe op te rig in plaas van bykomende steenkoolkragstasies.

Water scarcity

Water use

Coal mining

Electricity

Energy

Theses -- Public management and planning

Evaluation of the effects of an orange-oil based soil ameliorant on soil water management

Wright, Nordely

03 1900

Thesis (MScAgric)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Soil amelioration and conditioning is desirable and in many cases essential, due to increasing food demand and the deterioration and exhaustion of soils. A new soil ameliorant, consisting of orange oil as a base and a mixture of surfactants, is on the global agricultural market. Use of this soil ameliorant by farmers has made an impact on crop production and plant growth on many farms. The effects of this soil ameliorant on selected soil properties as well as plant traits were evaluated by a field trial, a pot trial and a Water Characteristic Curve experiment. A field trial was performed in the Firgrove area near Somerset West, Western Cape (South Africa). It entailed the evaluation of the water content and lateral movement of water in a sandy soil after the application of the soil ameliorant. The field was already planted with Capsicum annuum crop at the initiation of the trial. The trial was performed in a drip irrigated field by taking soil water measurements using a Diviner 2000 probe over a nine week period. The trial showed significant increases in water content on the plots treated with the soil ameliorant. These increases are indicative of an increase in the lateral movement of the soil water, as the measurements were taken between two drippers. On average, the ameliorant treated soil had 17% higher water content than that of the control. A Water Characteristic Curve (WCC) experiment was conducted, which entailed establishing the WCC for a sandy soil treated with the soil ameliorant. The Sandbox apparatus, from Eijkelkamp Agrisearch Equipment, was used to perform the experiment and provides suction values of 0.1 to 10.1 KPa. The WCC showed that the ameliorant application increased water retention over all suctions, especially for the 10 l/ha ameliorant application. This substantiated the Field trial where water retention was increase in a sandy soil. A pot trial was performed in a greenhouse to evaluate the effect of the soil ameliorant on selected soil properties and certain plant traits. This experiment consisted of an ameliorant treatment and a control with a combination of four different Plant Available Water Depletion (PAWD) regimes namely, 10% depletion, 50% depletion, 80% depletion and 50%C depletion, where “C” refers to covered. The trial layout, with five single pot replicates per treatment combination, was according to a randomized block design. The surface covering of one of the 50% PAWDs was a plastic sheet which to prevent evaporation from the soil surface. The ameliorant treatment resulted in significant improvements in overall plant growth, total biomass production, especially dry root biomass. Leaf Area Index and plant height were also improved. The Biomass Water Use Efficiency was improved with the ameliorant application, especially for the 50%C PAWD illustrating the beneficial use of a mulch. Bulk density was decreased with application of the ameliorant but this difference was not statistically significant. Aggregate stability for the moist soils (10% and 50%C PAWD) was significantly improved with the ameliorant application. The application of this soil ameliorant made significant improvements in various facets of plant growth and certain soil physical properties. Especially water holding capacity in sandy soils and the overall improvement in plant growth. There is still much opportunity for research in this field and many questions remain, especially those pertaining to the mechanisms involved in the workings of a soil ameliorant containing a mixture of ingredients. / AFRIKAANSE OPSOMMING: Die bestuur van besproeingswater en die optimisasie van gewasproduksie is `n studieveld wat baie aandag verg, aangesien varswater bronne bedreig word. As gevolg van die stygende vraag na voedsel en die agteruitgang en uitputting van die grond, is grondverbetering en-kondisionering aanbeveelbaar en in sommige gevalle noodsaaklik. `n Nuwe grond verbeteraar, bestaande uit lemoen olie as `n basis en ‘n mengsel van benattingsmiddels, is beskikbaar op die wêreld landbou mark. Die gebruik van die grondverbeteraar deur boere het ‘n impak gemaak op gewasproduksie en plantegroei op baie plase. Die effek van die grondverbeteraar op geselekteerde grond-eienskappe sowel as plantkenmerke is geevalueer deur ‘n veld proef, ‘n pot proef en ‘n Water Karakeristieke Kurwe eksperiment. `n Veldproef is uitgevoer in die Firgrove omgewing naby Somerset Wes in die Wes-Kaap Provinsie, Suid Afrika. Die veldproef het die evaluasie van die grondwater inhoud en die laterale beweging van water in `n sanderige grond behels. Die gewas Capsicum annuum was alreeds in die veld aangeplant voor die begin van die proef. Die proef was uitgevoer in `n drup besproeide veld deur grondwater metings wat geneem is met `n Diviner 2000 peilstif oor `n periode van nege weke. Die proewe het `n beduidende verhoging in die groundwater-inhoud getoon waar die grond met die grondverbeteraar behandel is. Die verhogings was `n aanduiding van `n toename in die laterale vloei van grond water, aangesien die lesings tussen twee druppers geneem is. Die grond, wat met die grondverbeteraar behandel is, het gemiddeld 17% hoёr groundwater-inhoud gehad as die kontrole. `n Water Karakteristieke Kurwe (WKK) eksperiment is uitgevoer, wat bestaan het uit die opstel van die WKK vir `n sanderige grond behandel met die grondverbeteraar. Die “Sandbox” apparaat van Eijkelkamp, Agrisearch Equipment is gebruik wat negatiewe druk waardes van 0.1 tot 10.1 KPa toon. Die WKK het getoon dat die toediening van die grondverbeteraar die water retensie verhoog het oor al die drukke, veral in die 10 l/ha toediening. Dit staaf die resultate van die Veld eksperiment waar water retensie verhoog is in die sanderige grond. Die pot-eksperiment is uitgevoer in `n tonnel om die effek van die grondverbeteraar op geselekteerde grond eienskappe en verskeie plant eienskappe te evalueer. Die eksperiment het bestaan uit ‘n grondverbeteraar behandeling en ‘n kontrole met ‘n kombinasie van vier verskillende plantbeskikbare wateronttrekkings naamlik, 10%, 50%, 80% onttrekking, en ‘n 50%C onttrekking, waar “C” verwys na “covered”. Die proef uiteensetting, met vyf enkel pot herhalings per behandeling kombinasie was volgens ‘n ewekansig blok uitleg. Die oppervlakte dekking van 50%C plantbeskikbare waterottrekking was `n 60 μm plastiek-vel wat verdamping vanaf die grondoppervlak verhoed het. Die grondverbeteraar behandeling het `n beduidende verbetering in algehele plantgroei, totale biomassa produksie en spesifiek droё wortel biomassa getoon. Die blaararea indeks en planthoogte het ook `n verbetering getoon. Die biomassa-watergebruiksdoeltreffendheid het verbeter met die toediening van die grondverbeteraar, spesifiek vir die 50%C plantbeskikbarewaterottrekking wat die voordele van die gebruik van oppervlakdekking illustreer. Die brutodigtheid is verminder deur die toediening van die grondverbeteraar, maar die verskil was statisties nie wesenlik nie. Agregaat-stabiliteit vir die grond met `n hoёr vogregime (10% en 50%C plantbeskikbare waterottrekking) is wesenlik verbeter met die toediening van die grondverbeteraar. Die toediening van die grondverbeteraar het wesenlike verbeteringe in verskeie plantegroei- en grondfisiese-eienskappe getoon. Spesifiek laterale beweging in sanderige grond en die verbettering van algehele plantegroei. Daar is nog baie geleenthede vir navorsing in die veld en baie vrae bly onbeantwoord, veral in verband met die meganismes met bretrekking tot die werking van die grondverbeteraar wat uit `n mengsel van bestandele bestaan.

Soil ameliorant

Soil water management

Root biomass

Biomass water use efficiency

Theses -- Agriculture

Dissertations -- Agriculture

UCTD

The impact of domestic water user cultures on water efficiency interventions in the South East of England : lessons for water demand management

Knamiller, C.

January 2011

The need for a more sustainable approach to water consumption has increasingly gained attention in the last decade. The domestic sector accounts for over half of abstracted water in the UK and, as such, has become a major target for water efficiency interventions. Current research and water efficiency interventions are dominated by a positivist approach, focusing on a limited range of factors that can be quantitatively measured. This thesis questions the dominant approach and argues that a more holistic overview of water efficiency can be achieved through the consideration of socio-technical and behavioural theories. Taking a more constructivist approach, this research draws on four theories from socio-technical and behavioural fields and combines them to create a framework for the analysis of water efficiency interventions. The framework is applied to two case studies, exploring water users' perceptions of water, water supply, personal water use, and their responses to the water efficiency interventions. The case studies were selected to provide examples of current mainstream approaches to water demand management. Research methods used included semi-structured interviews and observation. The research findings support the argument that the current dominant approach to domestic water efficiency interventions is limited and, in some cases, ineffectual. Issues of trust, knowledge, motivation and the relationships between water users and water companies were raised. The thesis concludes that the use of a constructivist perspective could help to provide a more effective approach to understanding and improving water demand management.

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