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In order to integrate necessary interdisciplinary complexity, sustainability, defined targets and endpoints for reclamation progress, the objective of this research is to advance reclamation knowledge on (i) international scale and (ii) national scale, taking Nigeria as an example. On the international scale (i), a systematic reclamation threshold scale for assessing, evaluating, documenting, and monitoring reclamation progress was developed. The threshold stages begin from the initial state I0 down to degraded state D0 (depending on the type of mining). Reclamation starts with soil reconstruction R-2 up to revegetation R-1 (red zones) to reach minimum threshold R0 (amber zone). Beyond R0 are the green zones R1, R2, and R3 representing soil/abiotic condition, biological and improved threshold respectively. Adaptation of the threshold model to degraded ecosystems in national and international laws is recommended. On the national scale with Nigeria (ii), endowed with over 34 solid minerals and abundant crude oil, findings show that almost all mine sites are below the minimum threshold scale R0. The sites are adversely affected by Artisanal and Small Scale Mining (ASM), whereby, contamination and soil lithology disturbances are the state-of-the-art discussions. However, bioremediation (phytoremediation) is the most feasible remediation technique. Therefore, for the crude oil contaminated sites, this study highlights typical cogitation for large in-situ implementation and potential species for remediation. For the mineral resources, gold mining was the typical example. As a practical approach, experimental areas on an abandoned mining site (Site 1), an active mining site (Site 2) and an undisturbed vegetation site (Control) in southwestern Nigeria were mapped out to represent its mining and farming activities. On the sites, (a) the impacts of the ASM activities on the floristic association were assessed. (b) the potential of 2D Electrical Resistivity Tomography (ERT) was explored to characterize the horizontal and vertical landscape homogeneity of the mine sites, and lastly, (c) the study identified native high-accumulating plants growing on the sites that can be employed for phytoremediation. Thus, the results show that (a) the floristic association of the mine sites have been stressed and disturbed. (b) the resistivity structure of the sites shows that ASM has greatly impaired the lithological status of the sites. (c) out of the 9 considered species, Crinum jagus has the highest accumulation factor of 8.71, 37.47, 1.08 and 29.38 for Pb, Cd, Fe and Cu respectively. It is a recommendable novel plant in the tropics. However, future studies must verify its hyperaccumulator potentials, identify other high accumulating species and develop effective approaches and policies to curb ASM activities and enhance remediation in Nigeria.
Multidimensional visualization of preferential flow pathways using neutron and x-ray radiation
(2016)
The occurrence of preferential flow of water in soils is rather the rule than the exception particularly in heterogeneous structured soils. The quantitative prediction is difficult because of the spatial as well as temporal variability. One aim of the dissertation was to visualize the soil structure and flow patterns in mine soils using a combination of neutron radiography, neutron tomography and x-ray computed tomography experiments. Both radiation techniques were used to describe preferential pathways as a soil structure with CT and the process of preferential flow of water with NT. For the first time neutron radiation was applied on undisturbed soil cores to visualize water distributions in natural soils on three examples for heterogeneities of different origin.
In a first investigation we used neutron radiography to analyze the moisture distribution in undisturbed slab-type and cylindrical samples of mine soils containing lignitic fragments and inclined soil layers. 2D radiography sequences indicated that flow pathways are highly dependent on the shape, distribution, and internal structure of the lignitic fragments. For 3D experiments, the quantitative analysis of water contents failed due to a pronounced beam hardening effect. The tensiometer data indicated the existence of local non-equilibrium in pressure heads between fragments and matric pore regions.
The objective of the second study was to analyze and visualize the effects of initial soil structure formation at the surface of bare soils in an artificial hydrological catchment that has been left to undirected ecological succession for three years. The three-dimensional (3D) micro-morphology was described using the X-ray computed tomography (CT); two-dimensional (2D) infiltration patterns were obtained from drip infiltration experiments using time-resolved neutron radiography (NT). The analyses of CT data indicate the existence of (i) structural crusts on soil consisting of sandy to loamy sediments and (ii) depositional crusts on sandy sediments. The results of combined observations using CT and NT suggest that the initial soil surface structure alterations of young sandy sediment modify moisture patterns of infiltrating water only slightly.
The aim of the 3rd experiment was to study effect of two ‘ecological engineers’, moss vegetation and beetle larvae on pore structure and infiltration. The soil pore structure was characterized by micro-computed tomography analyses of bare soil, sparse and dense moss-vegetated samples containing a single burrow. Flow patterns of infiltration experiments were visualized using the neutron radiography technique. The results of this study suggest that moss vegetation and burrowing activity of ground beetles strongly control the initial soil development by modification of pore structure and surface water infiltration.
This thesis analyses the extent of host specialisation in ectomycorrhizas, a mutualistic symbiosis between hyphae of certain fungal species and roots of forest trees. In the mycological literature it has been debated for long time, whether ectomycorrhizal communities in mixed stands are dominated by generalist or host specific fungi. In this thesis the concept of specificity guilds is introduced and applied to the evaluation of host specificity among the ectomycorrhizal fungal at the study site Kahlenberg near Eberswalde-Finow, 100 km northeast of Berlin. The study site comprised two mixed stands of Scots pine (Pinus sylvestris, L.) and beech (Fagus sylvatica L.) that were supplemented by one pure stand of Scots pine and one pure stand of beech. Ectomycorrhizal fungi were distinguished by morphotyping, anatomotyping and the molecular method of ITS rDNA sequencing directly at the mycorrhized root tips. Out of 40 fungal sequence types, 31 could be determined to species level by online data base comparisons and phylogenetic analysis. Among the 18 most frequent fungal species three specificity guilds were assigned: generalist guild, pine specific gild and beech specific gild. These assignments were based on the relative association with the roots of the two hosts in the mixed stands. In summarizing the occurrences in all four stands, the majority of fungal species, i.e. 67%, belonged to host specific guilds (five pine specific species, seven beech specific species), 33% were generalists (six species). Most fungi of the host specific guilds expressed preferences, i.e. in the mixed stands they also colonized non-target roots while these host preferring fungi were absent from the pure stand of the non-target host. This interesting behaviour may indicate improved competitiveness of host specific fungi when associated with their preferential hosts. Only four out of the 18 species associated exclusively with either pine or beech roots, i.e. they are specialists. The most notable beech specialist is Laccaria cf. laccata, although L. laccata s.l. is traditionally considered a generalist. Phylogenetic analysis suggests that the L. laccata complex consists of cryptic species that could belong to different host specific guilds. This demonstrates the importance of in depth delineation of fungal species by phylograms for assigning specificity guilds. The high percentage of host specific fungal species at the Kahlenberg site suggests that host specificity may play a role in role explaining ectomycorrhizal biodiversity in mixed stands. Different host species could provide niches for coexistence of ectomycorrhizal fungi. In pure stands high numbers of ectomycorrhizal fungi are more difficult to explain, because the number of possible niches decreases. Therefore, the pure beech stand was analyzed in depth, to test the hypothesis that roots of different individual beech genotypes may provide niches that explain the ectomycorrhizal biodiversity at the small spatial scale of a soil core. Fourteen ectomycorrhizal species, as determined by ITS sequencing and phylograms were patchily distributed along an 81 m long transect with ten transect points. All root segments in the three species richest soil cores (four, five and six fungal species) and the surrounding beech trees were genotyped by microsatellite PCR. In each of the three soil cores, roots of two host genotypes were present that corresponded to the two closest mature trees. However, different root genotypes did not carry different sets of ectomycorrhizal fungal species. Therefore, the hypothesis of tree genotypes contributing to ectomycorrhizal biodiversity has to be rejected for the analyzed beech stand. In the absence of other niche based explanations (soil parameters were homogenously distributed among transect points, no vertical compartmentalization), it is proposed that stochastic processes, such as spore dispersal might have contributed to the biodiversity in the analyzed soil cores of the pure beech stand.
Im Lebensraum Boden stellen Pilze einen bedeutenden Anteil der lebenden Biomasse dar und werden von einer Vielzahl von Organismen als Nahrungsressource genutzt. Ziel der vorliegenden Arbeit war die Untersuchung der Interaktionen zwischen der pilzfressenden Bodenarthropode Folsomia candida und verschiedenen Bodenpilzen. Einerseits wurde der Einfluss zahlreicher unterschiedlicher Eigenschaften von Pilzmyzelen, insbesonderer der Gehalt an giftigen Inhaltsstoffen und die Ausbildung von kristallinen Strukturen auf der Hyphenoberfläche und deren Funktion als Fraßschutz auf das Verhalten der Collembolen betrachtet. Andererseits wurde die Auswirkung des Fraßdrucks auf das Myzelwachstum und die intraspezifische Konkurrenz zwischen den Pilzen untersucht. In Laborexperimenten wurde das Fraßverhalten von F. candida gegenüber insgesamt 32 Pilzstämmen getestet, die entweder kristalline Oberflächenstrukturen oder giftige Inhaltsstoffe ausbilden oder als Referenzarten dienten. Zusätzlich wurden komplexe Gewächshausexperimente mit Quercus rubra durchgeführt, um u.a. den Einfluss der Collembolen auf die Mykorrhizierung unter natürlicheren Bedingungen zu untersuchen. F. candida unterschied deutlich zwischen einzelnen Pilzstämmen und fraß signifikant weniger an Myzelen mit Hyphenauflagerungen als an Referenzarten. Damit konnte erstmals den Hyphenauflagerungen eine ökofunktionelle Bedeutung als Fraßschutz zugeordnet werden. Dieser geht mit der besonders starken Ausbildung von Auflagerungen auf wichtigen Myzelstrukturen, wie Rhizomorphen mancher Pilzarten, einher. Noch stärker fraßhemmend wirkten giftige oder bitter bzw. scharf schmeckende Inhaltsstoffe, da insbesondere Pilze mit nachgewiesenem Gehalt an Muscarin, Amanitin und Fasciculol von den Collembolen am wenigsten gefressen wurden. Damit konnte die vermutete fraßhemmende Wirkung von Sekundärmetaboliten auf Bodenarthropoden bestätigt und erstmals mit konkreten Messungen des Giftgehaltes in Verbindung gebracht werden. Das Vorkommen von solchen Inhaltsstoffen und deren fraßhemmende Wirkung konnte so von den Fruchtkörpern auf die Myzele ausgeweitet werden. Eine ausgeprägte Fraßpräferenz für dunkel pigmentierten Pilzstämmen unabhängig ihrer taxonomischen Zugehörigkeit konnte ebenfalls bestätigt werden. Als weiterer Parameter wurde der Nährwert der Pilze durch die Analyse des Kohlenstoff-, Stickstoff- und Schwefelgehalts und durch die Anzahl der abgelegten Eier als Maß für die Fitness der Collembolen abgeschätzt und mit dem Fraßverhalten in Beziehung gebracht. Die untersuchten Elementgehalte korrelierten nicht mit der Fraßpräferenz. Die Ergebnisse der absoluten Gelegezahlen deuten auf einen Zusammenhang zwischen Nährwert und Fraßpräferenz hin, wobei die Hyphenauflagerungen und Giftgehalte wahrscheinlich von ausschlaggebender Bedeutung sind. Des Weiteren wurde erstmals nach Unterschieden in der Fraßpräferenz zwischen zahlreichen Ektomykorrhizapilzen und Nicht-Mykorrhizapilzen unter Berücksichtigung zahlreicher anderer Faktoren gesucht. Hier bestand im Gegensatz zu Endomykorrhizapilzen, deren geringe Attraktivität und Nahrungsqualität für Arthropoden als gesichert gilt, großer Forschungsbedarf. Es konnte kein Unterschied zwischen beiden Pilzgruppen in Bezug auf die Fraßpräferenz und Fertilität von F. candida festgestellt werden. Allerdings blieb der Einfluss von Symbiosepartnern oder unterschiedlichen Substraten unberücksichtigt. Collembolen haben einen meist negativen Einfluss auf das Myzelwachstum, der aber stark zwischen einzelnen Pilzarten variiert. Die Vermutung, dass Pilze durch die Ausbildung fraßhemmender Mechanismen einen Konkurrenzvorteil unter Fraßdruck erlangen, konnte nicht bestätigt werden. Vor allem schnell wachsende Pilzstämme wurden durch den Fraß gehemmt, was zur Angleichung der Wachstumsgeschwindigkeiten führte. Collembolen können daher die Konkurrenzverhältnisse zwischen einzelnen Pilzarten beeinflussen. Dies konnte auch in den Gewächshausexperimenten bestätigt werden. Nach Zugabe von Collembolen verringerte sich die Abundanz von Mykorrhizen eines bevorzugt gefressenen Pilzes zu Gunsten einer weniger bevorzugten Art. Die Collembolen hatten einen negativen Einfluss auf die Mykorrhizierung, die ihrerseits unter den Versuchsbedingungen einen insgesamt positiven Einfluss auf das Pflanzenwachstum hatte. Ein vermuteter indirekter Einfluss der Collembolen auf das Pflanzenwachstum und andere Bodenparameter muss in weiteren Experimenten unter komplexen Bedingungen untersucht werden. Die Arbeit zeigte, dass bei der Auswahl von Pilzarten für Experimente zahlreiche Eigenschaften der Pilze zu berücksichtigen sind, um aussagekräftige Ergebnisse zu erzielen.
This volume summarizes the monitoring activities and results at the ‘Chicken Creek’ catchment for the period 2005 to 2010. The development in all ecosystem compartments is assessed, classified, and compared to more mature systems with regard to functional relevance and succession stage. In a final synopsis, the whole catchment is evaluated with regard to ecosystem development and an outlook is given on the expected trends both in the short and the medium term.
In der Praxis der Braunkohlegewinnung im Lausitzer Tagebaurevier werden natürlich gewachsene Böden in den betroffenen Gebieten zerstört. In der Folge entwickeln sich aus den verkippten Substraten nährstoffarme Rohböden, auf deren Oberflächen als erste Pioniere zumeist Grünalgen, Moose, Flechten und Bakterien siedeln, welche die obersten Bodenpartikel vernetzen und so biologische Bodenkrusten ausbilden. Diese Biokrusten stabilisieren die durch spärliche Vegetation gekennzeichneten Rekultivierungsflächen, wirken erosionshemmend und beeinflussen die Hydrologie und Wasserumverteilung der oberen Bodenschicht.
Ziel dieser Arbeit war die Untersuchung von unterschiedlichen Sukzessionsstadien von Biokrusten auf zwei Rekultivierungsflächen der Bergbaufolgelandschaft in der Niederlausitz, die durch unterschiedliche Substrateigenschaften, Topographie und Rekultivierungszeiten gekennzeichnet sind. Auf einer künstlichen Sanddüne und einer tertiären Fläche wurden Krustentypen hinsichtlich einer divergenten Artenausprägung und den damit verbundenen funktionellen Eigenschaften untersucht.
Parameter der Photosynthese wurden hinsichtlich ihrer Bedeutung für die Charakterisierung und Funktion der Biokrusten analysiert. Des Weiteren wurde der Einfluss der Biokrusten auf den Kohlenstoff- und Stickstoffhaushalt der Böden untersucht. Zuletzt sollte festgestellt werden, ob und wie die kleinräumige Mosaikstruktur der Biokrusten die Hydrologie sowie Funktion und Aktivität der Krustenorganismen beeinflusst. In Bezug auf die Artenzusammensetzung der Bodenkrusten konnten auf beiden Standorten Übereinstimmungen als auch Unterschiede festgestellt werden, da es sich bei allen Organismen um ubiquitäre Arten handelte. Auf beiden Standorten fanden sich die Grünalgen Zygogonium und Ulothrix, die Moose Ceratodon und Polytrichum sowie Flechten der Gattung Cladonia. In Schlabendorf wurde aufgrund der längeren Rekultivierungszeit bereits eine höhere Artendichte festgestellt. Das betraf besonders Arten der Flechtengattung Cladonia. Eine standortspezifische Präferenz hinsichtlich des Substrates oder der naturräumlichen Gegebenheiten nicht festgestellt werden konnte.
Die Auswertung der ökophysiologischen Parameter ergab einen Anstieg der Chlorophyllgehalte, des Normalized Difference Vegetation Index (NDVI), der Chlorophyllfluoreszenz sowie der Netto-Photosyntheseraten mit fortschreitender Krustenentwicklung. Der Anstieg der Photosynthese-relevanten Parameter verlief aufgrund der heterogenen Verteilung der Organismen zwischen den Biokrusten des gleichen Sukzessionsstadiums nur in frühen Stadien linear.
Die höchste photosynthetische Aktivität wurde bei den Moos-Krusten festgestellt, gefolgt von den Grünalgen-Krusten und den Flechten-Krusten. Das Verhältnis von Brutto-Photosynthese zu Respiration lies den Schluss zu, dass die CO2-Fixierungsrate in den Flechten-Krusten aufgrund der mycobiontischen Respiration niedriger ausfiel.
Die Infiltration in den Krusten wurde durch das Vernetzen von Sandpartikeln durch Grünalgen-Filamente und den Verschluss der Porenräume gehemmt. Die Wasserspeicherkapazität nahm jedoch aufgrund des organischen Materials zu. Das Auftreten von Moosen förderte hingegen die Infiltration und verringerte die Wasserhaltekapazität, da Rhizoide das Substrat auflockerten bzw. sich präferentielle Fließwege bildeten. Die C- und N-Gehalte der Krusten nahmen durch den Zuwachs der organischen Biomasse bei fortschreitender Entwicklung zu.
With regard to the depletion of global phosphorus reserves and with the aim of ensuring sustainable soil fertility on agricultural soils, a fundamental understanding of mechanisms of fixation and mobilization of inorganic phosphorus in soils is required. Amongst others, phosphorus availability is affected by ad- and desorption reactions on pedogenic Fe- and Al-hydroxide surfaces. The characterization of phosphate binding on those contrasting mineral surfaces can help to find solutions for enhancing the mobilization of fertilized but not available soil inorganic phosphate. Fourier-transform infrared spectroscopic experiments were carried out during phosphorus adsorption on crystalline gibbsite, poorly crystalline 2-line-ferrihydrite and amorphous Fe:Al-hydroxide mixtures. Desorption experiments with CaCl₂, CaSO₄, citric acid (C₆H₈O₇), and humic acid (C₉H₉NO₆) were conducted to determine the capacity of phosphate fixation and mobilization in short- and long-term. Additionally, phosphorus release from the Fe- and Ca-phosphates vivianite and hydroxyapatite were analyzed.
For gibbsite, the formation of AlHPO₄ and Al₂HPO₄ can be assumed, while for ferrihydrite, a FeHPO₄ or Fe₂PO₄ complex and the precipitation of FePO₄ with longer equilibration time were observed. Fe₂HPO₄ or a Fe₂PO₄ surface complex was deduced for amorphous Fe-hydroxides, an AlH₂PO₄ surface complex was identified for Al-hydroxides. The weakly associated amorphous FeO(OH) molecules enhance the precipitation of FePO₄. With high Al content, a weaker phosphate binding of both inner- and outer-sphere complexes and either no or minor quantities of precipitate were formed. Ferrihydrite showed a more rigid structure and a lower extent of precipitation compared to amorphous Fe-hydroxide. The cumulative phosphorus desorption followed the order CaCl₂ < CaSO₄ < humic acid < citric acid for crystalline and amorphous Fe- and Al-hydroxides as well for vivianite and hydroxyapatite. While inorganic anion exchange took part at easily available binding sites and fast exchangeable phosphorus, organic acids additionally affect the more heavily available binding sites and slow exchangeable phosphorus. For humic acid, the accumulation of metal-organic complexes in the desorption solution was suggested, whereas for citric acid the dissolution of the minerals was maintained. The cumulative release rates of the Flow-Through-Reactor setup were higher compared to batch due to a short residence time and a continuous concentration gradient. This could lead either to an over- or underestimation of the available phosphorus pools and influenced the comparability of both methods.
Objective of the Transregional Collaborative Research Centre (CRC/TR) 38 was the study of structures and processes of the initial ecosystem development. It was assumed that the initial phase is characterized by less structured and therefore less heterogeneous ecosystems. Thus, analysis of young ecosystems in their initial stages should provide better insights into ecosystem functioning. Following this basic concept, the idea of the CRC/TR 38 was to analyze the establishment of new structures and processes which lead to a growing structuring and in consequence to a growing complexity and heterogeneity in an artificially created watershed. Further, with the help of this step-by-step development of the ecosystem it was aimed to learn from occurring feedbacks, which appear between old and newly emerging structures and patterns in order to better understand also the behavior of more mature systems. Special emphasis was placed on the spatial and temporal dynamics of both evolving structures and related processes and their interactions. In summary, the CRC/TR 38 was able to identify a number of structures and processes that are considered to be relevant and specific for young systems.
Influence of Ectomycorrhiza on exudation of Low Molecular Weight carboxylates in Pinus sylvestris L.
(2008)
Ectomycorrhiza has a strong influence on exudation of both Low Molecular Weight (LMW) carboxylates and on the release of inorganic compounds into the rhizosphere. This process of exudation influences the chemical composition of the rhizosphere soil than the bulk soil. This specific chemical environment which is created in the rhizosphere significantly influences mineralization processes in the soil. Exudation is normally related to activities such as growth and physiological development of plant roots. Root secretions are also comprised of large range of organic and inorganic substances. To a large extent nutrient uptake by plants depends on the release of exudates in the form of LMW carboxylates, which in turn mobilize the required elements suitable for metabolic purposes by forming organometallic complexes. Root exudates influence the rhizosphere soil making it conducive for root proliferation. Exudates are well known for stimulating the metabolic activity of microbial communities in the rhizosphere. Correspondingly, microbes may enhance rhizodeposition by roots. The main objective of this research focuses on characterization of Low Molecular Weight (LMW) carboxylates in rhizosphere soil solution and their role in plant nutrition. For a better understanding of the characteristics of the root exudates, Pinus sylvestris L. tree seedlings, distinguished into non-mycorrhized as well as mycorrhized variants and were grown in petridish rhizotron. To reduce the influences of the unknown processes occurring in the natural environment, working under sterile conditions to much extent was preferred. To achieve maximum recovery of LMW carboxylates, density of the roots per volume in our petridish experiments was increased. Rhizosphere soil solutions were collected with the help of sterile plastic mini suction tubes (Rhizon). The types of exudates analyzed in the rhizosphere soil samples were oxalate/oxalic acid, L-malate/L-malic acid, citrate/citric acid, succinate/succinic acid and lactic acid. For identifying possible organometallic complexes, detection of labile ion concentration of the above LMW carboxylates was done using capillary electrophoresis and high performance liquid chromatography instruments. Growth of individual plants, within the treatment and across the variants was supposed to offer more information with regard to the influence of the ectomycorrhizal symbiosis on LMW carboxylate release. For inducing mycorrhization of the tree seedlings, a single strain of ectomycorrhiza (AM747290) was used to avoid influence of allelopathic interactions when more strains are used (Wöllecke 2001). In order to characterize the impacts of mycorrhization on characterization of LMW carboxylates, the plant morphological parameters, such as, root tissue density (RTD) and specific root length (SRL), along with the above and below ground biomass were measured for mycorrhizal and non-mycorrhized seedlings. The task of accurate measurements included the consideration of excess weight contributed by the quartz sand particles adhered to roots. Weight corrections were applied during chemical and morphological measurements to increase the accuracy. Further, the organometallic complexes in the rhizosphere solution were calculated using a geochemical modelling software tool - PHREEQC. Depending on the complex forming abilities of LMW carboxylates present in the rhizosphere, organometallic complexes are formed with the cations. The outcome of this task was a development of a conceptual model to predict and compare the nutrients present in the plant to their availability in the rhizosphere which was supplemented by artificial nutrient supply.
Assessing alternative agricultural water management strategies requires long-term field trials or vast data collection for model calibration and simulation. This work aims to assess whether an uncalibrated agro-hydrological model using global input datasets for climate, soil and crop information can serve as a decision support tool for crop water management under data scarcity. This study employs the Cool Farm Tool Water (CFTW) at eight eddy covariance sites of the FLUXNET2015 dataset. CFTW is tested using global (CFTWglobal) and local (CFTWlocal) input datasets under current and alternative management scenarios. Results show that the use of global datasets for estimating daily evapotranspiration had little effect on the median Root Mean Square Error (RMSE) (CFTWglobal: 1.70 mm, CFTWlocal: 1.79 mm), while, however, the median model bias is much greater (CFTWglobal: - 18.6%, CFTWlocal: - 4.3%). Furthermore, the periods of water stress were little affected by the use of local or global data (median accuracy: 0.84), whereas the use of global data inputs led to a significant overestimation of irrigation water requirements (median difference: 110 mm). The model performance improves predominantly through the use of more representative local precipitation data, followed by local reference evapotranspiration and soil for some European growing seasons. We identify model outputs that can support decision-making when relying on global data, such as periods of water stress and the daily dynamics of water use. However, our findings also emphasize the difficulty of overcoming data scarcity in decision-making in agricultural water management. Furthermore, we provide recommendations for enhancing model performance and thus may increase the accessibility of reliable decision support tools in the future.