Introduction

The global clove market is experiencing heightened instability as weather disruptions in Indonesia — historically the world’s dominant clove producer — increasingly tighten supply and ripple across international spice value chains. Indonesia accounts for a disproportionately large share of global clove output, with estimates suggesting the country provides more than two-thirds of total production despite shifting competitive dynamics.

However, recent years have seen mounting pressure on clove yields due to uneven rainfall patterns, erratic temperature swings, and extreme weather events, all symptomatic of broader climate change effects. These conditions have exacerbated production uncertainty, created logistical delays during critical harvesting and drying windows, and contributed to marked price volatility. At the same time, trade disruptions — including heightened scrutiny of specific shipments due to contamination alerts — have amplified the strain on global supply availability.

This article analyzes the intersection of weather events, agricultural production impacts, logistics challenges, and international market consequences shaping the contemporary clove supply landscape.

Recent Weather Patterns and Climate Stress in Indonesian Clove Regions

Clove cultivation is highly sensitive to climatic conditions, requiring relatively stable precipitation, consistent humidity, and defined temperature ranges during flowering and bud development. In Indonesia’s primary clove-growing areas — including Maluku islands such as Ternate and regions across eastern archipelagic zones — farmers and researchers alike have documented increasing unpredictability in weather cycles. Erratic rainfall, extended dry spells followed by intense downpours, and deviations in seasonal onset have undermined the crop’s growth rhythm.

Local farmers report that the timing and intensity of rain have shifted compared with historical patterns, making it difficult to anticipate optimal planting and harvesting windows. Unseasonal wetness during traditionally dry periods increases risks of fungal disease and post-harvest loss, while intense rainfall during drying phases prolongs processing times and reduces quality, as clove buds must be dried for several additional days under shelter.

Scientific observations reinforce these field reports. Research conducted in eastern Indonesian islands has found statistically significant increases in rainfall intensity over recent decades, as well as degraded microclimatic conditions that are less conducive to stable clove yields. These climate stressors align with global atmospheric changes linked to rising temperatures and shifting oceanic patterns.

Production Impact: Yield Fluctuations and Regional Variance

The combined effects of weather variability have manifested in fluctuating clove yields across major Indonesian production zones. Official data indicate that yields in recent harvests have declined materially from historical peaks, with some reports suggesting reductions of approximately 25% compared with a decade or more ago.

In practical terms, this means fewer harvestable buds per hectare, shorter production seasons, and increased unpredictability in annual output volumes. Farmers, particularly smallholders whose livelihoods depend on predictable yields, are facing economic strain as harvest quantities diminish or become inconsistent. Many are diversifying income sources, signing memoranda of understanding for alternative crops, or exiting clove cultivation altogether due to risk and profitability concerns.

There is also notable regional variance. While some districts maintain relatively stable output, others — especially coastal areas subject to fluctuating moisture patterns — have seen steep yield erosion. Such geographical inconsistency complicates national production forecasting and adds unevenness to aggregate exportable volumes.

Logistical Strain and Export Disruptions

Beyond production volumes, logistical systems are feeling pressure from weather-related disruptions. Harvest scheduling has become less reliable, affecting processing plants’ ability to plan throughput. Prolonged drying cycles because of unseasonable rain extend time stock spends in intermediate storage, raising risks of quality degradation and logistical bottlenecks.

Moreover, a recent safety-related disruption has further complicated clove exports. In late 2025, the United States Food and Drug Administration (FDA) issued alerts regarding trace amounts of the radioactive isotope cesium-137 detected in certain Indonesian clove shipments, prompting enhanced inspections and temporary detentions at U.S. ports. Although Indonesian authorities’ initial follow-ups indicated that radiation readings at one export site were at normal background levels, the incident triggered delays and deterred routine trading flow until investigations clarify all findings.

These combined production and logistics pressures have reduced the pace at which Indonesian cloves reach global markets, particularly in North America and Europe, where supply has tightened. Some international buyers, including representatives from the American Spice Trade Association, have reported depleting inventory and made formal requests to Indonesian authorities to expedite export clearances and assure continuity.

Price Volatility and Market Repercussions

The tightening of supply and logistical uncertainty have translated into tangible price movements in both domestic Indonesian trading hubs and global export markets. Historical price patterns show seasonal fluctuation, but recent years have witnessed sharper swings correlated with production shortfalls and export bottlenecks.

Earlier report data suggest that farm-gate prices experienced significant compression and rebound within a single harvest season — falling sharply during periods of oversupply or quality concerns, and rising again as available stock dwindled. Price per kilogramme swings from high to low in local markets have been recorded at nearly half within a year, illustrating extreme price sensitivity to supply changes.

Internationally, reduced Indonesian export volumes have fed into tightened global inventories, contributing to upward pressure on spice prices when demand persists. These effects are particularly acute in markets that lack alternative sourcing — such as African or Madagascan production regions, which are smaller and uneven in capacity.

Global Supply Chain Ripples

Indonesia’s clove supply challenges reverberate beyond national borders due to the country’s historical dominance in the spice trade. Although Indonesia has ceded the top exporter position to Madagascar in recent years, it still supplies a large portion of the world’s cloves and related products like clove oil used in food flavorings, cigarettes, aromatherapy, and pharmaceuticals.

Exporters and importers that rely on Indonesia as a primary source are adjusting sourcing strategies, increasing engagement with alternative producers, or building larger inventory buffers to guard against supply interruptions. These adaptations entail additional cost and complexity, as alternative markets often demand longer freight lead times and may not offer volumes sufficient to fully compensate for Indonesian shortfalls.

The cumulative effect is a more fractured global clove supply chain, with increased segmentation between local domestic consumption in Indonesia and incremental export volumes available for international demand.

Policy Responses and Forecasting Challenges

In response to mounting climate and logistical pressures, Indonesian authorities are reinforcing monitoring and forecasting efforts to support agricultural resilience. Collaborations between the Meteorology, Climatology and Geophysics Agency (BMKG) and the Ministry of Agriculture aim to integrate climate data analytics into early warning systems for farmers. These initiatives are designed to inform planting and harvesting timing by predicting rainfall intensity, drought risk, and other hydrometeorological hazards that could affect crop performance.

Despite these efforts, the lag between improved forecasting and on-the-ground impact remains a challenge. Many smallholder producers lack access to real-time data or the financial means to adjust planting schedules in response to forecast signals. Combined with persistent climate variability — including unpredictable shifts in precipitation patterns and rising temperatures — this limits the efficacy of policy responses in stabilizing production outcomes.

Conclusion

Weather disruptions in Indonesia — from unpredictable rain to broader climate impacts — are now materially tightening global clove supply, with effects felt throughout production, logistics, pricing, and international trade. Indonesia’s position as a key clove producer means that local agricultural stress translates directly into global market volatility, prompting buyers and suppliers alike to reassess sourcing strategies and risk management frameworks.

While authorities are investing in climate data integration and early warning systems to support long-term agricultural resilience, near-term supply constraints and export frictions — including safety-related inspections — will continue to challenge market stability. As global demand for cloves remains steady across food, flavoring, and industrial applications, more resilient supply chains and diversified sourcing are likely to define the spice market landscape in the coming seasons.

For stakeholders seeking deeper market intelligence and supply insights related to cloves or other agricultural commodity dynamics, visit foodadditivesasia.com or contact food@chemtradeasia.com for further analysis and support.