Comparative evaluation of manual cassava harvesting techniques in Kerala, India

Abstract: In India, cassava is consumed as a secondary staple along with the main staple, rice, and many rural poor consume it as the staple in different forms of preparations.  Though harvesting is known to be one of the most difficult and cost-intensive field operation in cassava cultivation, mechanisation of cassava harvesting is still very low in most cassava growing areas of India due to topographic constraints, methods and scale of cultivation.  The most viable solution to overcome these constraints is to promote the use of more efficient manual harvesting tools.  Thus, the main objective of this study was to field evaluate the efficiency of four manual cassava harvesting techniques under different land preparation methods in terms of field capacity, level of drudgery and root tuber damage or breakage.  The study also sought to investigate the effect of cassava agronomic parameters on uprooting force requirement.  Field study was carried out at the Central Tuber Crops Research Institute (CTCRI) research field (under upland mound method) and at Chenkal village on farmers’ fields (under lowland flat method); both in the Kerala state of India.  Harvesting was done using the CTCRI lever, prototype harvester, hoe and manual uprooting (control) techniques. Results from the study showed that the use of manual harvesting tools is preferable on relatively dryer soils, whereas manual uprooting technique is best suited for soils with relatively higher moisture contents.  However, best efficiency of manual harvesting is achieved when cassava plants are coppiced before harvesting.  Also, cassava uprooting force requirement, to a greater extent is influenced by root tuber yield, root depth and number of root tubers per plant, especially under upland mound land preparation method.  It is however recommended that a user performance assessment and economic feasibility analysis of the prototype harvester and CTCRI lever be conducted with farmers to facilitate future design modifications, where necessary and to support future adoption.  As a design recommendation, the pressure at the fulcrum for both the CTCRI lever and prototype harvester should be reduced to avoid sinking during harvesting in soils with relatively higher moisture contents.   Keywords: cassava, field capacity, drudgery, coppiced, efficienc

Awareness, Satisfaction and Willingness to Pay Remuneration for Architectural Services among Clients in Nigeria

This study assessed relationships between awareness, satisfaction, and willing(ness)-to-pay (WTP) remuneration for architectural services from client perspectives toward improving the public image and business performance of architects in Nigeria. Likert ratings of 16 officially approved architectural services based on residential developments from 97 respondents using descriptive statistics, t-tests, and regression analysis revealed that clients obtained architectural information through word-of-mouth referrals from friends, colleagues, architects and finally, through digital media. Respondents were significantly more aware (mean 2.75 on a 4-point Likert scale) than were WTP for architectural services (mean 2.12), P = 0.000. Clients were WTP for only production of construction drawings and site supervision. Awareness significantly predicted WTP (β = −0.7, Exp (β) = 4.106, P = 0.003) in a model including age and income which explained 36% of the variance in WTP. Satisfaction with architectural services negatively predicted WTP (β = −0.77, Exp(β)=0.462, P = 0.16), implying that client satisfaction, a key performance indicator for architects, was no guarantee for WTP. Revisions to professional fees and code of ethics are recommended to allow architects and allied professionals advertise and market their services through online and social media outlets. Architects should also leverage on interior, furniture, fittings, and component design to improve remuneration and business performance

Selective oxidative degradation of azo dyes by hydrogen peroxide catalysed by manganese(II) ions

Manganese(II) ions catalyse the oxidative degradation of Calmagite (H3CAL) dye in aqueous solution at 20 ± 1 °C in the pH range 7.5–9.0 using hydrogen peroxide (H2O2) as oxidant by a mechanism that involves strong complexation to the MnII centre. It is proposed that [MnIII(CAL)(O2H)]− i.e. a dye coordinated hydroperoxyl (O2H−) MnIII complex is formed and bleaching of the dye is initiated by an electron-transfer to MnIII, with the binding of H2O2 being the rate determining step. At pH 9.0 in (bi)carbonate, HCO3−, H3CAL is rapidly bleached via the in situ formation of coordinated peroxycarbonate (HCO4−); a TOF (TOF = moles of dye bleached per mole of manganese per hour) of ∼5000 h−1 can be achieved. The bleaching of the related azo dyes Orange II and Orange G is different because, unlike Calmagite, they lack an o,o-dihydroxy motif so are unable to complex strongly to MnII and no oxidation to MnIII occurs. At pH 8.0 (phosphate buffer) Orange II and Orange G are not bleached but bleaching can be achieved at pH 9.0 (HCO3− buffer); the rate determining step is dye coordination and it is proposed bleaching is achieved via an outer-sphere oxygen atom transfer. Mechanisms for dye bleaching at pH 8.0 and pH 9.0 are proposed using data from EPR, UV/VIS and ESI-MS. MnII/H2O2/HCO3− form a potent oxidising mixture that is capable of removing stubborn stains such as curcumin

An experimental and modelling study of dual fuel aqueous ammonia and diesel combustion in a single cylinder compression ignition engine

The ability of ammonia to act as a hydrogen carrier, without the drawbacks of hydrogen gas-storage costs and low stability-renders it a potential solution to the decarbonisation of transport. This study combines both modelling and experimental techniques to determine the effect of varying the degree of aspiration of ammonium hydroxide (NH4OH) solution, at different engine loads, in the combustion of a compression ignition engine. Ignition delay was extended as ammonia injection increased, causing an increase in peak in-cylinder temperature, but generally lower combustion quality-increasing incomplete combustion products, while decreasing particle size. The higher peak in-cylinder temperatures generally correlated with a higher nitrous oxide (NOx) emissions in the exhaust, though fuel-bound nitrogen effect was apparent. Chemical kinetic modelling at equivalent conditions found increasing levels of unburnt ammonia with greater aspiration. Moreover, the ignitability of NH4OH was found to improve in simulations substituting diesel with hydrogen peroxide direct injection

Error management theory and the adaptive significance of transgenerational maternal-stress effects on offspring phenotype

It is well established that circulating maternal stress hormones (glucocorticoids, GCs) can alter offspring phenotype. There is also a growing body of empirical work, within ecology and evolution, indicating that maternal GCs link the environment experienced by the mother during gestation with changes in offspring phenotype. These changes are considered to be adaptive if the maternal environment matches the offspring\u27s environment and maladaptive if it does not. While these ideas are conceptually sound, we lack a testable framework that can be used to investigate the fitness costs and benefits of altered offspring phenotypes across relevant future environments. We present error management theory as the foundation for a framework that can be used to assess the adaptive potential of maternal stress hormones on offspring phenotype across relevant postnatal scenarios. To encourage rigorous testing of our framework, we provide field-testable hypotheses regarding the potential adaptive role of maternal stress across a diverse array of taxa and life histories, as well as suggestions regarding how our framework might provide insight into past, present, and future research. This perspective provides an informed lens through which to design and interpret experiments on the effects of maternal stress, provides a framework for predicting and testing variation in maternal stress across and within taxa, and also highlights how rapid environmental change that induces maternal stress may lead to evolutionary traps

Error management theory and the adaptive significance of transgenerational maternal-stress effects on offspring phenotype

It is well established that circulating maternal stress hormones (glucocorticoids, GCs) can alter offspring phenotype. There is also a growing body of empirical work, within ecology and evolution, indicating that maternal GCs link the environment experienced by the mother during gestation with changes in offspring phenotype. These changes are considered to be adaptive if the maternal environment matches the offspring\u27s environment and maladaptive if it does not. While these ideas are conceptually sound, we lack a testable framework that can be used to investigate the fitness costs and benefits of altered offspring phenotypes across relevant future environments. We present error management theory as the foundation for a framework that can be used to assess the adaptive potential of maternal stress hormones on offspring phenotype across relevant postnatal scenarios. To encourage rigorous testing of our framework, we provide field-testable hypotheses regarding the potential adaptive role of maternal stress across a diverse array of taxa and life histories, as well as suggestions regarding how our framework might provide insight into past, present, and future research. This perspective provides an informed lens through which to design and interpret experiments on the effects of maternal stress, provides a framework for predicting and testing variation in maternal stress across and within taxa, and also highlights how rapid environmental change that induces maternal stress may lead to evolutionary traps

Error management theory and the adaptive significance of transgenerational maternal‐stress effects on offspring phenotype

It is well established that circulating maternal stress hormones (glucocorticoids, GCs) can alter offspring phenotype. There is also a growing body of empirical work, within ecology and evolution, indicating that maternal GCs link the environment experienced by the mother during gestation with changes in offspring phenotype. These changes are considered to be adaptive if the maternal environment matches the offspring’s environment and maladaptive if it does not. While these ideas are conceptually sound, we lack a testable framework that can be used to investigate the fitness costs and benefits of altered offspring phenotypes across relevant future environments. We present error management theory as the foundation for a framework that can be used to assess the adaptive potential of maternal stress hormones on offspring phenotype across relevant postnatal scenarios. To encourage rigorous testing of our framework, we provide field‐testable hypotheses regarding the potential adaptive role of maternal stress across a diverse array of taxa and life histories, as well as suggestions regarding how our framework might provide insight into past, present, and future research. This perspective provides an informed lens through which to design and interpret experiments on the effects of maternal stress, provides a framework for predicting and testing variation in maternal stress across and within taxa, and also highlights how rapid environmental change that induces maternal stress may lead to evolutionary traps.This article provides a quantitative framework as a means of generating field‐testable hypotheses regarding the adaptive potential of maternal stress under different scenario combinations. By providing a mechanistic basis for examining the adaptive potential of maternal stress effects, our overall aim is not only to provide a means for explaining patterns and testing new hypotheses, but to catalyze the study of maternal stress effects under this framework across a diversity of species, life histories, and environments.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/145404/1/ece34074_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/145404/2/ece34074.pd

Equipped for Life in the Boreal Forest: The Role of the Stress Axis in Mammals

The hypothalamic-pituitary-adrenal axis (stress axis) plays a central role in equipping mammals to succeed in the challenging environment of the boreal forest. Over the last 20 years, we have tackled a broad range of topics to understand how the stress axis functions in four key herbivore species. The central challenge for snowshoe hares is coping with their predators, whereas for the others, it is primarily coping with each other (especially during reproduction) and with their physical environment. Hares are severely stressed by their predators during the population decline. The predator threat causes major changes in the stress axis of hares and reduces their reproduction; in addition, acting through maternal programming, it is the most plausible explanation for the extended period of low numbers following the population decline. Arctic ground squirrel males have an intense breeding season for two to three weeks in early spring, after which many of them die. The functioning of their stress axis changes markedly and is key in meeting their energy demands during this period. In contrast, red-backed vole males, though also short-lived, breed repeatedly only in the summer of their life, and their stress axis shows no change in function. However, their reproductive effort negatively affects their long-term survival. Territorial red squirrels experience marked interannual fluctuations in their major food source (white spruce seed), resulting in major fluctuations in their densities and consequently in the intensity of territorial competition. Changes in the densities of red squirrels also alter maternal stress hormone levels, inducing adaptive plasticity in offspring postnatal growth rates that prepares offspring for the environment they will encounter at independence. To survive winter, red squirrels need to defend their territories year-round, and the basis of this defense appears to be adrenal dehydroepiandrosterone, which has the benefits, but not the costs, of gonadal steroids. Arctic ground squirrels survive winter by hibernating in deeply frozen ground. Unlike all other hibernators, they have evolved a unique adaptation: high levels of adrenal androgens in summer to accumulate protein reserves that they then burn in winter. With a rapidly changing climate, the stress axis will play a key role in permitting northern animals to adapt, but the linkages between the changes in the abiotic and biotic components of the boreal forest and the phenotypic plasticity in the stress response of its inhabitants are not well understood for these or any other herbivore species.L’axe hypothalamo-hypophyso-surrénalien (l’axe du stress) joue un rôle central pour aider les mammifères à réussir dans l’environnement difficile de la forêt boréale. Ces 20 dernières années, nous nous sommes penchés sur une vaste gamme de sujets afin de comprendre comment fonctionne l’axe du stress chez quatre grandes espèces herbivores. Pour le lièvre d’Amérique, le défi central consiste à faire face à ses prédateurs, tandis que pour les autres espèces, ce défi consiste à se faire face mutuellement (surtout pendant la reproduction) de même qu’à faire face à leur environnement physique. Les lièvres subissent beaucoup de stress de la part de leurs prédateurs pendant la diminution de la population. La menace des prédateurs est la cause de changements majeurs sur l’axe du stress des lièvres, ce qui a pour effet de réduire leur reproduction. De plus, en raison de leur programmation maternelle, il s’agit de l’explication la plus plausible justifiant la période prolongée de leur faible nombre suivant la diminution de la population. Le spermophile arctique mâle a une période de reproduction intense pendant deux à trois semaines au début du printemps et après cela, un grand nombre d’entre eux meurent. Le fonctionnement de son axe de stress change de façon marquée, ce qui est essentiel à sa demande en énergie pendant cette période. Par contraste, le campagnol à dos roux mâle, même s’il ne vit également pas longtemps, se reproduit à répétition seulement pendant l’été de sa vie, et le fonctionnement de son axe de stress ne montre aucun changement. Cependant, ses efforts de reproduction ont des incidences négatives sur sa survie à long terme. Pour sa part, la principale source d’alimentation (les graines d’épinette blanche) de l’écureuil roux territorial connaît des fluctuations interannuelles marquées, ce qui se traduit par une fluctuation majeure en matière de densité de cette espèce animale et, par conséquent, en matière d’intensité de la concurrence pour le territoire. Les changements de densité d’écureuils roux exercent également une influence sur les taux d’hormone maternelle de stress, ce qui donne lieu à une plasticité adaptative des taux de croissance postnatale de la progéniture qui prépare la progéniture pour faire face à l’environnement dans lequel ils évolueront au stade de l’indépendance. Pour survivre à l’hiver, l’écureuil roux doit défendre son territoire à l’année et pour y parvenir, il se sert de la déhydroépiandrostérone surrénalienne, qui comporte les avantages des stéroïdes gonades, sans les coûts. Le spermophile arctique survit à l’hiver en hibernant dans le sol gelé en profondeur. Contrairement à tous les autres hibernateurs, il s’est développé une adaptation unique en son genre, soit des taux élevés d’androgènes surrénaliens en été qui lui permettent d’accumuler les réserves de protéines qu’il brûle ensuite pendant l’hiver. À la lumière du changement climatique rapide, l’axe de stress jouera un rôle-clé pour permettre aux animaux du Nord de s’adapter, mais les liens entre les changements des composantes abiotiques et biotiques de la forêt boréale et la plasticité phénotypique de la réaction de stress de ses habitants ne sont pas bien compris dans le cas de ces espèces herbivores ou de toute autre espèce herbivore

A novel mathematical model of activation and sensitization of platelets subjected to dynamic stress histories

Abstract Blood recirculating devices, such as ventricular assist devices and prosthetic heart valves, are burdened by thromboembolic complications requiring complex and lifelong anticoagulant therapy with its inherent hemorrhagic risks. Pathologic flow patterns occurring in such devices chronically activate platelets, and the optimization of their thrombogenic performance requires the development of flow-induced platelet activation models. However, existing models are based on empirical correlations using the wellestablished power law paradigm of constant levels of shear stress during certain exposure times as factors for mechanical platelet activation. These models are limited by their range of application and do not account for other relevant phenomena, such as loading rate dependence and platelet sensitization to high stress conditions, which characterize the dynamic flow conditions in devices. These limitations were addressed by developing a new class of phenomenological stress-induced platelet activation models that specifies the rate of platelet activation as a function of the entire stress history and results in a differential equation that can be directly integrated to calculate the cumulative levels of activation. The proposed model reverts to the power law under constant shear stress conditions and is able to describe experimental results in response to a diverse range of highly dynamic stress conditions found in blood recirculating devices. The model was tested in vitro under emulated device flow conditions and correlates well with experimental results. This new model provides a reliable and robust mathematical tool that can be incorporated into computational fluid dynamic studies in order to optimize design, with the goal of improving the thrombogenic performance of blood recirculating devices