Refine
Document Type
- Article (21)
- Doctoral Thesis (8)
Has Fulltext
- yes (29)
Is part of the Bibliography
- no (29)
Keywords
- climate change (29) (remove)
Institute
Publisher
- Frontiers Media S.A. (6)
- Wiley (6)
- MDPI (5)
- Blackwell Publishing Ltd (1)
- IOP Publishing (1)
- John Wiley & Sons, Ltd (1)
Understanding the effects of temperature and moisture on radial growth is vital for assessing the impacts of climate change on carbon and water cycles. However, studies observing growth at sub-daily temporal scales remain scarce.
We analysed sub-daily growth dynamics and its climatic drivers recorded by point dendrometers for 35 trees of three temperate broadleaved species during the years 2015–2020. We isolated irreversible growth driven by cambial activity from the dendrometer records. Next, we compared the intra-annual growth patterns among species and delimited their climatic optima.
The growth of all species peaked at air temperatures between 12 and 16°C and vapour pressure deficit (VPD) below 0.1 kPa. Acer pseudoplatanus and Fagus sylvatica, both diffuse-porous, sustained growth under suboptimal VPD. Ring-porous Quercus robur experienced a steep decline of growth rates with reduced air humidity. This resulted in multiple irregular growth peaks of Q. robur during the year. By contrast, the growth patterns of the diffuse-porous species were always right-skewed unimodal with a peak in June between day of the year 150–170.
Intra-annual growth patterns are shaped more by VPD than temperature. The different sensitivity of radial growth to VPD is responsible for unimodal growth patterns in both diffuse-porous species and multimodal growth pattern in Q. robur.
Individual white spruce (Picea glauca (Moench) Voss) growth limitations at treelines in Alaska
(2018)
White spruce (Picea glauca (Moench) Voss) is one of the most common conifers in Alaska and various treelines mark the species distribution range. Because treelines positions are driven by climate and because climate change is estimated to be strongest in northern latitudes, treeline shifts appear likely. However, species range shifts depend on various species parameters, probably most importantly on phenotypic plasticity, genetic adaptation
and dispersal. Due to their long generation cycles and their immobility, trees evolved to endure a wide variety of climatic conditions. In most locations, interannual climate variability is larger than the expected climate change until 2100. Thus treeline position is typically thought of as the integrated effect of multiple years and to lag behind gradual climate change by several decades. Past dendrochronological studies revealed that growth of white spruce in Alaska can be limited by several climatic variables, in particular water stress and low temperatures. Depending on how the intensity of climate warming, this could result in a leading range edge at treelines limited by low temperatures and trailing treelines where soil moisture is or becomes most limiting. Climate-growth correlations are the dendrochronological version of reaction norms and describe the relationship between an environmental variable and traits like tree-ring parameters (e.g. ring width, wood density, wood anatomy). These correlations can be used to explore potential effects of climate change on a target species. However, it is known that individuals differ with respect to multiple variables like size, age, microsite conditions, competition status or their genome. Such individual differences could be important because they can modulate climate-growth relationships and consequently also range shifts and growth trends. Removing individual differences by averaging tree-ring parameters of many individuals into site chronologies could be an oversimplification that might bias estimates of future white spruce performance. Population dynamics that emerge from the interactions of individuals (e.g. competition) and the range of reactions to the same environmental drivers can only be studied via individual tree analyses. Consequently, this thesis focuses on factors that might alter individual white spruce’ climate sensitivity and methods to assess such effects. In particular, the research articles included explore three topics:
1. First, clones were identified via microsatellites and high-frequency climate signals of clones were compared to that of non-clonal individuals. Clonal and non-clonal individuals showed similar high-frequency climate signals which allows to use clonal and non-clonal individuals to construct mean site chronologies. However, clones were more frequently found under the harsher environmental conditions at the treelines which could be of interest for the species survival strategy at alpine treelines and is further explored in the associated RESPONSE project A5 by David Würth.
2. In the second article, methods for the exploration and visualization of individual-tree differences in climate sensitivity are described. These methods represent a toolbox to explore causes for the variety of different climate sensitivities found in individual
trees at the same site. Though, overlaying gradients of multiple factors like temperature, tree density and/or tree height can make it difficult to attribute a single cause to the range of reaction norms (climate growth correlations).
3. Lastly, the third article attempts to disentangle the effect of age and size on climate-growth correlations. Multiple past studies found that trees of different Ages responded differently to climatic drivers. In contrast, other studies found that trees do not age like many other organisms. Age and size of a trees are roughly correlated, though there are large differences in the growth rate of trees, which can lead to smaller trees that are older than taller trees. Consequently, age is an imperfect Proxy for size and in contrast to age, size has been shown to affect wood anatomy and thus tree physiology. The article compares two tree-age methods and one tree-size method based on cumulative ring width. In line with previous research on aging and Wood anatomy, tree size appeared to be the best predictor to explain ontogenetic changes in white spruce’ climate sensitivity. In particular, tallest trees exhibited strongest correlations with water stress in previous year July. In conclusion, this thesis is about factors that can alter climate-growth relationships (reaction norms) of white spruce. The results emphasize that interactions between climate variables and other factors like tree size or competition status are important for estimates of future tree growth and potential treeline shifts. In line with previous studies on white spruce in Alaska, the results of this thesis underline the importance of water stress for white spruce.
Individuals that are taller and that have more competitors for water appear to be most susceptible to the potentially drier future climate in Alaska. While tree ring based growth trends estimates of white spruce are difficult to derive due to multiple overlaying low frequency (>10 years) signals, all investigated treeline sites showed highest growth at the treeline edge. This could indicate expanding range edges. However, a potential bottleneck for treeline advances and retreats could be seedling establishment, which should be explored in more detail in the future.
Weltweit nimmt der Druck auf die natürlichen Wasserressourcen zu. Dies hat unterschiedliche Gründe, ist jedoch zum größten Teil verursacht durch einen stetig ansteigenden Bedarf. Faktoren wie Bevölkerungswachstum, die In- und Extensivierung landwirtschaftlicher Produktion, veränderte Lebensstile mit gleichzeitiger Erhöhung des individuellen Wasserverbrauchs, tragen regional unterschiedlich zu einer Verknappung bei. Neben dem anthropogenem Einfluss auf Wasserressourcen stellt Klimawandel ein zusätzliches Problem dar. Viele Länder sind sich der begrenzten Verfügbarkeit ihrer Ressourcen zwar bewusst, einfache Lösungen zur nachhaltigen Bewältigung des steigenden Bedarfs existieren jedoch zumeist nicht. Momentan folgen die meisten Länder dem Paradigma des ökonomischen Wachstums, um Ernährungssicherheit, Beschäftigung und sozialen Fortschritt zu gewährleisten. Die exzessive Ausbeutung natürlicher Ressourcen stellt immer noch den Standard dar, um sozio-ökonomische Entwicklung zu ermöglichen. Daher ist bei der Vereinbarung von ökonomischem Wachstum und Umweltnachhaltigkeit nur schwer ein Fortschritt zu erkennen. In diesem Zusammenhang spielt Wasser eine Schlüsselrolle: der Zugang zu und die Nutzung von Wasser war und ist eine wesentliche Voraussetzung für sozio-ökonomische Entwicklung. In den vergangenen Jahrzehnten wurden kritische Wasserlimits trotz wachsenden Bedarfs überschritten. Demnach mangelt es in vielen Ländern an einem angepassten Wassermanagement. Zudem sind Maßnahmen zum Schutz der Wasserressourcen insbesondere im Hinblick auf eine zukünftige Nutzung unzureichend. Nord-Afrika ist eine Region mit schwerwiegenden Problemen bezüglich ausreichender Wasserverfügbarkeit. Die Übernutzung hat bereits zu einem alarmierenden Rückgang vorhandener Frischwasserressourcen geführt. Wasser ist aber gleichermaßen die Schlüsselressource für ökonomisches Wachstum und sozio-ökonomische Entwicklung. Daher ist die Implementierung einer adäquaten Wasserbedarfsteuerung unentbehrlich. Der thematische Fokus dieser Dissertation liegt auf der Analyse der problematischen Wassersituation im nordöstlichen Marokko. In der Region sind Wasserressourcen in hohem Maße vulnerabel durch einen stetig steigenden Bedarf. Dieser ist verursacht durch Bevölkerungswachstum, hohen landwirtschaftlichen Bewässerungsbedarf sowie durch die jüngst erfolgte Etablierung eines wasser-intensiven Tourismussektors. Zusätzlich wirkt sich Klimawandel auf die bereits übernutzten Ressourcen aus. Der momentane Mangel an angepassten Strategien als Antwort auf die Herausforderungen eines steigenden Bedarfs verstärkt durch Klimawandel hat negative Auswirkungen auf die regional angestrebte sozio-ökonomische Entwicklung. Diese Dissertation untersucht die Gründe einer sich verringernden regionalen Wasserverfügbarkeit unter Einbeziehung des menschlichen sowie des klimatischen Einflusses auf das Wasserbudget. Die regionale Ökonomie hängt ab von der ausreichender Wasserverfügbarkeit. Wasserpolitiken sind daher wichtig und sollten die Ursachen der Wasserprobleme realistisch betrachten. Der räumliche Rahmen vorliegender Analyse ist das Einzugsgebiet des Moulouya-Flusses. Dieses stellt eine hydrologische Einheit dar, und umfasst ca. 54.000 km2. Der Fluss selbst hat eine Länge von ca. 600 km und mündet in einem Delta mit einzigartigen Feuchtgebieten an der Küste des Mittelmeers. Der Moulouya-Fluss ist der wichtigste Frischwasserversorger der gesamten nordöstlichen Landesregion. Mit einer jährlichen Niederschlagsumme von ca. 330 mm gehört die Region zu den trockensten des Landes. Ein Ziel der vorliegenden Arbeit ist es, Forschungslücken zu füllen und Information bereitzustellen, die Zusammenhänge der Exponiertheit gegenüber Wasserstress verdeutlichen können. Zudem soll die Etablierung eines verbesserten Wassermanagements als Grundlage sozio-ökonomischer Entwicklung unterstützt werden. In einer interdisziplinären Herangehensweise wird Wasserknappheit in der Region empirisch analysiert. In vier wissenschaftlichen Artikeln werden die Gründe und das Ausmaß von Vulnerabilität sowie der Entwicklungs-Governance-Kontext im Hinblick auf Wasserknappheit untersucht. Artikel I erörtert die spezifischen regionalen Probleme der Küstenzone, die sich unter starkem Entwicklungsdruck befindet und die Auswirkungen des Klimawandels bereits spürt. Artikel II kontrastiert den menschlichen Einfluss auf Frischwasserverfügbarkeit (Indikatoren: Bevölkerungswachstum, Wassernachfrage) mit den möglichen Auswirkungen einer regionalen Klimaveränderung (Indikatoren: Niederschlag, Temperaturen, Evapotranspiration). Artikel III analysiert den zusätzlichen Wasserbedarf in Nord-Ost-Marokko, der durch die Etablierung von Luxustourismusresorts entsteht, die in der Küstenzone errichtet werden. Artikel IV diskutiert die Nachhaltigkeit der regionalen Entwicklungspläne im Lichte des Wasserproblems. Die Ergebnisse zeigen, dass die Wassernachfrage die Wasserverfügbarkeit bereits überschritten hat. Bevölkerungswachstum und wasserbasierte ökonomische Entwicklung werden diesen Trend verstärken, so dass die Region mit hoher Wahrscheinlichkeit unter problematischen Wassermangel leiden wird. Die Analysen regionaler Klimatrends deuten hin auf eine Verschiebung der Niederschlagsmuster bei gleichzeitigem Rückgang der Niederschlagssummen. In Verbindung mit den aktuellen Nachfrageraten ist die Verfügbarkeitsgrenze bereits überschritten. Regierungspläne, die den Ausbau des Luxustourismus fördern, haben zum Ziel, die regionale Ökonomie zu diversifizieren und die Abhängigkeit vom Agrarsektor zu reduzieren. Luxustourismus ist allerdings auf permanente Wasserversorgung angewiesen und wird dadurch eine zusätzliche Belastung für die regionale Wasserverfügbarkeit darstellen. Alle vier Artikel betonen die Notwendigkeit für rasche soziale und institutionelle Antworten auf die beschriebenen Herausforderungen, um die Wasserversorgung zu gewährleisten. Daher werden folgende Empfehlungen formuliert: • Erhöhung der Wassereffizienz (z.B. durch modernisierte Bewässerungstechnologien, “green water management” für regenwasser-gespeiste Bewässerung); • Etablierung moderner Wassertechnologien zum Wasserschutz, oder unkonventioneller Wasserproduktion); • Etablierung urbaner und ländlicher Abwassersammlung und –behandlung, sowie Wiederverwertung; • Einbeziehung von Klimawandel in Berechnungen des zukünftigen Wasserbudgets; • Aufbau von kleinskaligen Wasseraufbereitungsanlagen für wasserintensive Unternehmen, z.B. Tourismusinfrastrukturen. Derartige Maßnahmen sind kostenintensiv. Dennoch ist es das Ziel dieser Dissertation zu betonen, dass natürliche Wasservorräte begrenzt und in Nord-Ost-Marokko bereits stark degradiert sind. Ein besseres Verständnis der jeweiligen Einflussfaktoren, anthropogen oder klimatisch verursacht, ist die Basis für die Implementation problem-ausgerichteter Anpassungsstrategien. Anthropogen verursachte Auswirkungen können durch Politiken beeinflusst werden. Wenn wasserbasierte Volkswirtschaften nicht adäquat auf den zunehmenden Druck auf Wasserressourcen reagieren, riskieren sie ökonomisches Scheitern.
Introduction: At the cellular level, acute temperature changes alter ionic conductances, ion channel kinetics, and the activity of entire neuronal circuits. This can result in severe consequences for neural function, animal behavior and survival. In poikilothermic animals, and particularly in aquatic species whose core temperature equals the surrounding water temperature, neurons experience rather rapid and wide-ranging temperature fluctuations. Recent work on pattern generating neural circuits in the crustacean stomatogastric nervous system have demonstrated that neuronal circuits can exhibit an intrinsic robustness to temperature fluctuations. However, considering the increased warming of the oceans and recurring heatwaves due to climate change, the question arises whether this intrinsic robustness can acclimate to changing environmental conditions, and whether it differs between species and ocean habitats.
Methods: We address these questions using the pyloric pattern generating circuits in the stomatogastric nervous system of two crab species, Hemigrapsus sanguineus and Carcinus maenas that have seen a worldwide expansion in recent decades.
Results and discussion: Consistent with their history as invasive species, we find that pyloric activity showed a broad temperature robustness (>30°C). Moreover, the temperature-robust range was dependent on habitat temperature in both species. Warm-acclimating animals shifted the critical temperature at which circuit activity breaks down to higher temperatures. This came at the cost of robustness against cold stimuli in H. sanguineus, but not in C. maenas. Comparing the temperature responses of C. maenas from a cold latitude (the North Sea) to those from a warm latitude (Spain) demonstrated that similar shifts in robustness occurred in natural environments. Our results thus demonstrate that neuronal temperature robustness correlates with, and responds to, environmental temperature conditions, potentially preparing animals for changing ecological conditions and shifting habitats.
Rewetting is the most effective way to reduce greenhouse gas (GHG) emissions from drained peatlands and must significantly contribute to the implementation of the Paris Agreement on Climate within the land sector. In 2010–2013, more than 73 thousand hectares of fire-prone peatlands were rewetted in the Moscow Region (the hitherto largest rewetting program in the Northern Hemisphere). As the Russian Federation has no national accounting of rewetted areas yet, this paper presents an approach to detect them based on multispectral satellite data verified by ground truthing. We propose that effectively rewetted areas should minimally include areas with wet grasslands and those covered with water (cf. the IPCC categories “rewetted organic soils” and “flooded lands”). In 2020, these lands amounted in Moscow Region to more than 5.3 and 3.6 thousand hectares, respectively. Assuming that most rewetted areas were former peat extraction sites and using IPCC default GHG emission factors, an overall GHG emission reduction of over 36,000 tCO2-eq year−1 was calculated. We furthermore considered the uncertainty of calculations. With the example of a 1535 ha large rewetted peatland, we illustrate the estimation of GHG emission reductions for the period up to 2050. The approach presented can be used to estimate GHG emission reductions by peatland rewetting on the national, regional, and object level.
Dendrochronology, the science of tree-rings is a tool which has been widely used for many years for understanding changes in the environment, as trees react to environmental changes over time. In the contemporary situation, where climate warming in the Arctic is unequivocal and its effects on the Alpine and tundra ecosystems are seen pronouncedly in the past decade, the role of dendro-studies and the use of trees and shrubs alike as proxies of change has become critical. Studies clearly indicate that warming in the Arctic and Alpine tundra has resulted in increased vegetation in recent years. Shrubs, in these sensitive ecosystems, have proven to be highly instrumental as they likely benefit from this warming and hence are good indicators and auditees of this change. Therefore, in this study, we investigate the potential of shrubs in the evolving field of dendro-ecology/climatology.
Studies from classical dendrochronology used annual rings from trees. Further, because of shrub sensitivity to contemporary change, shrub-based dendrochronological research has increased at a notable scale in the last decade and will likely continue. This is because shrubs grow even beyond the tree line and promise environmental records from areas where tree growth is very limited or absent. However, a common limitation noted by most shrub studies is the very hard cross-dating due to asynchronous growth patterns. This limitation poses a major hurdle in shrub-based dendrochronological studies, as it renders weak detection of common signals in growth patterns in population stands. This common signal is traced by using a ‘site-chronology’.
In this dissertation, I studied shrub growth through various resolutions, starting from understanding radial growth within individuals along the length of the stem, to comparison of radial growth responses among male and female shrubs, to comparing growth responses among trees and shrubs to investigation of biome-wide functional trait responses to current warming. Apart from Chapter 4 and Chapter 6, I largely used Juniperus communis sp. for investigations as it is the most widely distributed woody dioecious species often used in dendro-ecological investigations in the Northern Hemisphere.
Primarily, we investigated radial growth patterns within shrubs to better understand growth within individuals by comparing different stem-disks from different stem heights within individuals. We found significant differences in radial growth from different stem-disks with respect to stem heights from same individuals. Furthermore, we found that these differences depending on the choice of the stem-disk affect the resulting site-chronology and hence climate-sensitivity to a substantial extent and that the choice of a stem-disk is a crucial precursor which affects climate-growth relationships.
Secondly, we investigated if gender difference – often reported causing differential radial growth in dioecious trees – is an influential factor for heterogeneous growth. We found that at least in case of Juniperus communis. L and Juniperus communis ssp nana. WILLD there is no substantial gender biased difference in radial growth which might affect the site-chronology. We did find moderate differences between sexes in an overall analysis and attribute this to reproductive effort in females.
In our study to test the potential of shrubs for reconstruction, we used a test case of Alnus viridis ssp crispa. We found a strong correlation between ring-width indices and summer temperature. Initially, the model failed the stability tests when we tested the stability of this relation using a response function model. However, using wood-anatomical analysis we discovered that this was because of abnormal cell-wall formation resulting in very thin rings in the year 2004. Pointer year analysis revealed that the thin rings were caused because of a moth larval outbreak and when corrected for these rings the model passed all stability tests.
Furthermore, to see if trees and shrubs growing in same biomes react to environmental changes similarly, a network analysis with sites ranging from the Mediterranean biome to the Ural Mountains in Russia was carried out. We found that shrubs react better to the current climate warming and have a decoupled divergent temperature response as compared to coexisting trees. This outcome reiterated the importance of shrub studies in relation to contemporary climate change. Even though trees and shrubs are woody forms producing annual rings, they have very different growth patterns and need different methods for analysis and data treatment.
Finally, in a domain-wide network analysis from plant-community vegetation survey, we investigated functional relationships between plant traits (leaf area, plant height, leaf nitrogen content, specific leaf area (SLA), and leaf dry matter content (LDMC)) and abiotic factors viz. temperature and soil moisture. We found a strong relation between summer temperature and community height, SLA and LDMC on a spatial scale. Contrarily, the temporal-analysis revealed SLA and LDMC lagged and did not respond to temperature over the last decade. We realized that there are complex interactions between intra-specific and inter-specific plant traits which differ spatially and temporally impacting Arctic ecosystems in terms of carbon turn over, surface albedo, water balance and heat-energy fluxes. We found that ecosystem functions in the Arctic are closely linked with plant height and will be indicative of warming in the short term future becoming key factors in modelling ecosystem projections.
Abstract
Climate change will lead to more frequent and severe drought periods which massively reduce crop production worldwide. Besides drought, nitrogen (N)‐deficiency is another critical threat to crop yield production. Drought and N‐deficiency both decrease photosynthesis and induce similar adaptive strategies such as longer roots, reduction of biomass, induction of reactive oxygen species (ROS), and antioxidative enzymes. Due to the overlapping response to N‐deficiency and drought, understanding the physiological and molecular mechanisms involved in cross‐stresses tolerance is crucial for breeding strategies and achieving multiple stress resistance and eventually more sustainable agriculture. The objective of this study was to investigate the effect of a mild N‐deficiency on drought stress tolerance of tomato plants (Solanum lycopersicum L., cv. Moneymaker). Various morphological and physiological parameters such as dry biomass, root length, water potential, SPAD values, stomatal conductance, and compatible solutes accumulation (proline and sugar) were analyzed. Moreover, the expression of ROS scavenging marker genes, cytosolic ASCORBATE PEROXIDASES (cAPX1, cAPX2, and cAPX3), were investigated. Our results showed that a former mild N‐deficiency (2 mM NO3−) enhances plant adaptive response to drought stress (4 days) when compared to the plants treated with adequate N (5 mM NO3−). The improved adaptive response was reflected in higher aboveground biomass, longer root, increased specific leaf weight, enhanced stomatal conductance (without reducing water content), and higher leaf sugar content. Moreover, the APX1 gene showed a higher expression level compared to control under N‐deficiency and in combination with drought in the leaf, after a one‐week recovery period. Our finding highlights a potentially positive link between a former mild N‐deficiency and subsequent drought stress response in tomato. Combining the morphological and physiological response with underlying gene regulatory networks under consecutive stress, provide a powerful tool for improving multiple stress resistance in tomato which can be further transferred to other economically important crops.
To reduce global greenhouse gas emissions in order to limit global warming to 1.5°C, individuals and households play a key role. Behavior change interventions to promote pro-environmental behavior in individuals are needed to reduce emissions globally. This systematic literature review aims to assess the a) evidence-based effectiveness of such interventions and b) the content of very successful interventions without limiting the results to specific emitting sectors or countries. Based on the “PICOS” mnemonic and PRISMA statement, a search strategy was developed, and eligibility criteria were defined. Three databases (Embase, PsycInfo, and Web of Science) were searched to retrieve and review potential literature. As a result, 54 publications from 2010 to 2021 were included in the analysis. The results show that most interventions only have small positive effects or none at all. A total of 15 very successful interventions focused on the sectors of mobility, energy, and waste and incorporated improved (infra-) structures, education, feedback, enablement or made the sustainable option the default. Six evidence-based recommendations for content, timing, and setting are deducted and given for interventions on enhancing pro-environmental behavior (PEB). In summary, although the various interventions and intervention types to promote PEB differ in their effectiveness, very successful interventions have common elements. Future research should focus on high-/low-impact and high-/low-cost behavior to develop interventions that aim at high-impact but low-cost behavior changes, or avoid low-impact but high-cost behavior.