Published January 26th, 2026

Spring marks a critical turning point for commercial apiaries, especially in regions where timely pollination underpins local agriculture. After enduring the challenges of winter, honey bee colonies require careful assessment and targeted care to ensure they are ready to support the demanding bloom periods typical of southern Colorado and New Mexico. The success of spring pollination hinges on the health and strength of each hive, which is why systematic preparation is essential.

Drawing from a background that blends hands-on agricultural experience with data-driven management, this approach emphasizes practical steps that optimize hive recovery, queen performance, pest control, and nutrition. By applying these five essential steps, beekeepers and farmers alike can improve colony resilience and predictability, ultimately enhancing pollination outcomes and supporting sustainable crop production.

Comprehensive Hive Inspection: Setting the Foundation for Spring Success

Spring pollination starts with a disciplined hive inspection. Treat it like a structural walk-through and health check rolled into one. The goal is to understand each colony's strength and risk level before you move anything to orchards or fields.

1. Choose The Right Inspection Window

In southern Colorado and New Mexico, wait for a calm day above about 55 - 60°F with minimal wind. Avoid inspections right after a cold snap or major storm; bees will be defensive and clustered. Work mid-day when field bees are flying so you have fewer bees on the combs and a clearer view of brood and resources.

2. Start With External Checks

• Entrance activity: Note traffic, pollen coming in, and any crawling or disoriented bees.
• Dead bees and debris: Check for excessive dead bees, chewed wax, or mouse droppings.
• Moisture and ventilation: Look for staining, mold on the landing board, or water damage near the lid.
• Structural integrity: Inspect covers, boxes, and bottom boards for rot, warping, loose joints, and gaps that invite pests.

Record these observations by hive number. Over time, patterns in entrance activity and equipment failures will show which locations and box types hold up best.

3. Internal Inspection: Brood, Bees, And Food

• Hive strength: Count frames covered with bees. For pollination work, you want solid coverage across multiple frames, not spotty clusters.
• Brood pattern: Look for a tight, continuous brood pattern with few empty cells in the middle. Scattered brood, many skipped cells, or multiple eggs per cell signal problems.
• Stage distribution: Healthy colonies show eggs, larvae, and capped brood. Missing stages point to recent queen failure or interruption in laying.
• Food reserves: Check honey arcs above brood and the presence of pollen. Note frames that are light or completely empty.
• Comb condition: Replace dark, misshapen, or damaged comb. Watch for sagging frames, cross-comb, or broken foundation that will not travel well for pollination.

Write down frame counts for bees, brood, and food. Consistent data from each visit lets you compare colonies and decide which ones are ready for spring pollination.

4. Watch For Disease, Pests, And Moisture Damage

• Brood health: Note sunken or perforated cappings, off odors, or discolored larvae. These suggest brood disease that needs prompt action.
• Varroa and other pests: Look for mites on adults and drone brood, deformed wings, and chewed pupae. Plan a proper mite count after this visual pass.
• Fungus and mold: Moist, moldy frames or inner covers mean poor ventilation. Address this before moving hives to pollination sites.

Again, capture findings by hive. Problem colonies flagged now will not surprise you in the middle of bloom.

5. Connecting Inspection Results To Queen Decisions

Most queen calls should come from inspection data, not guesswork. During the inspection, note:

• Egg pattern and laying rate: Strong, even patterns and all brood stages support keeping the queen.
• Temperament: Record stinging behavior and how quickly bees calm after smoke. Aggressive colonies are poor candidates for pollination yards.
• Recovery from winter: Compare similar-age queens across hives. Late or weak buildup often traces back to queen performance.

Combine these notes with your other records to rank queens. Colonies with poor brood patterns, spotty laying, or chronic defensiveness go on the requeening list before pollination contracts start. Colonies that excel become breeders or stay in key pollination locations.

By treating hive inspections as repeatable, data-driven events, you catch weaknesses early: failing queens, structural issues, and disease pressure. That discipline sets the foundation for strong, predictable spring pollination performance.

Verifying Queen Health and Colony Vitality

Once inspection notes point toward queen concerns, shift from general hive condition to a focused queen assessment. Colony strength for spring pollination rests on a single insect's performance, so you need clear criteria, not hunches.

Reading The Brood Pattern

Start with brood frames, not with hunting for the queen. A strong queen lays in a solid, consistent pattern across the comb. You should see large, continuous areas of brood with minimal empty cells in the center. Spotty brood, scattered patches, or rings of empty cells inside the brood nest show that something is off, even if the queen is still present.

Confirm that all stages are present: single eggs centered in cells, healthy pearly larvae, and tightly capped brood. Missing eggs or young larvae alongside older capped brood means the queen stopped or slowed laying several days ago.

Eggs, Behavior, And Temperament

Egg presence tells you what the queen did within the last three days. One egg per cell, neatly placed at the bottom, signals normal laying. Multiple eggs per cell, eggs on cell walls, or erratic placement often point to laying workers or a failing queen past her prime.

If you see the queen, watch how she moves. A vigorous queen covers ground steadily, attended closely by a retinue of workers that feed and groom her. A sluggish queen that drifts without attendants, or one with a damaged abdomen or wings, rarely sustains spring buildup.

Hive temperament is another performance indicator. Gentle colonies that stay on the comb, avoid head-butting the veil, and settle quickly after smoke are safer for pollination yards and easier to manage. Defensive colonies drain time and raise liability; aggressive behavior often tracks back through genetics, so it belongs in your data set when deciding which queens to keep or replace.

Linking Queen Vigor, Vitality, And Varroa Resistance

Colonies headed by well-bred queens show faster buildup, steadier brood patterns, and better resilience under pressure. When you select for traits like gentleness and Varroa tolerance, you are shaping the base genetics that support upcoming mite management. Hygienic, vigorous colonies remove infested brood more effectively and handle Varroa loads with less crash during pollination.

Record queen age, brood quality, temperament, and any hygienic traits alongside your inspection data. Over seasons, this set of notes lets you choose breeder queens that push your apiary toward hardy, manageable stock rather than short-lived production peaks.

Interventions: When And How To Replace Queens

Timing queen replacement is as important as the decision itself. In preparation for spring contracts, you want queens well established before major nectar and pollen flows. Requeening too late leaves you with uneven brood nests and weak foraging strength when orchards and fields bloom.

• Flag Now, Replace Early: Any colony with failing brood pattern, chronic defensiveness, or repeated slow buildup goes on a priority requeening list immediately after late-winter inspections.
• Introduce Queens To Stable Populations: Requeen when weather allows steady flight and the cluster is compact but not stressed. Remove the old queen, wait several hours, then introduce the new queen in a cage with candy. Resist the urge to rush release; slow exposure improves acceptance.
• Use Nucs For High-Risk Swaps: For problematic colonies, build small nucleus units with good bees and brood, introduce the new queen there, and later unite that nuc with the parent colony once the queen is proven.
• Cull Poor Lines From The Breeding Pool: Queens that fail under moderate Varroa pressure or produce consistently hot colonies should not contribute drones or daughters to your future stock.

Sound queen decisions complete the bridge between inspection findings and the Varroa mite monitoring that follows. A vigorous, well-bred queen gives you dense, healthy brood, which in turn gives you cleaner data and stronger options when you test and treat for mites ahead of pollination season.

Monitoring and Managing Varroa Mite Populations Before Pollination

Once you are confident in your queens and basic hive strength, shift to hard numbers on Varroa. Visual checks during inspection only tell you when mites are already out of control. For strong colonies for early spring pollination, you need measured infestation levels and clear thresholds for action.

Varroa drives winter loss, spring brood collapse, and virus pressure during bloom. Colonies that look powerful in March can crash by April if mites are high going into buildup. That risk increases in regions with long brood rearing seasons like southern Colorado and New Mexico, where mites reproduce through much of the year.

Choosing A Monitoring Method

Pick one primary monitoring method and use it consistently so your records line up over time.

• Alcohol Wash: The most accurate field method. Collect about half a cup of bees from the brood nest (avoid the queen), submerge them in alcohol or windshield fluid, and shake to dislodge mites. Count mites and bees, then calculate percentage infestation.
• Powdered Sugar Roll: Gentler but slightly less precise. Collect bees into a jar, coat them with powdered sugar, roll to dislodge mites, then shake mites onto a white surface for counting. Release the bees back to the hive.
• Sticky Boards: Place a sticky board under a screened bottom for 24 - 72 hours. Count natural mite drop and compare it to thresholds based on season and your chosen standard. Useful when weather or queen status makes bee sampling risky.

Whichever method you choose, standardize the sample size, hive location for bee collection, and sampling interval. Record mite counts by hive ID along with brood area, queen age, and temperament. Those combined notes show which genetics hold mites down and which families fall apart under equal pressure.

Integrated Pest Management Before Pollination

Integrated pest management for Varroa starts with selection and husbandry, then adds treatments only when numbers cross your action threshold.

• Genetic And Management Controls: Favor queens and colonies that show hygienic behavior and lower mite counts in your records. Maintain strong brood breaks through requeening schedules or splitting plans where workable.
• Mechanical And Cultural Tactics: Use drone brood culling, screened bottoms, and careful comb rotation to reduce reproductive space for mites. Avoid drifting by keeping entrances distinct and arranging hives to discourage bees from mixing.
• Organic Treatments: When counts require intervention, organic acids and essential oil formulations give options that fit pollinator-friendly apiary practices. Follow label directions for formic, oxalic, or thymol-based products, and match application type to temperature, brood status, and colony strength.

Data direct these steps. If mite loads spike faster in certain lines or configurations, those patterns go into breeding and equipment decisions, not just treatment choices. Colonies with dense, healthy brood from vigorous queens often tolerate pressure better, but they also give mites more cells to exploit, so regular checks matter even when everything looks perfect.

Timing And Compliance Around Pollination Contracts

Timing treatments before pollination contracts is as important as product choice. Plan your final pre-bloom monitoring at least several weeks before moving bees, then schedule any needed treatments so residues clear and colonies stabilize ahead of transport. Many products have strict temperature windows and withdrawal periods; regulators, packers, and growers expect compliance and may test wax or honey.

Keep written records for each yard: test dates, method used, raw mite counts, calculated infestation levels, product names, batch numbers, and application dates. Those logs tie your mite work back to queen evaluations and hive strength scores. Over seasons, that integrated record set shapes a stock of bees that hold Varroa in check and maintain dependable performance through the entire pollination season.

Optimizing Feeding Protocols to Boost Hive Strength

Once queen and Varroa decisions are in place, feeding becomes the next structural support for spring buildup. Supplemental feed buys time until reliable nectar and pollen flows start, which in southern Colorado and New Mexico often lag behind brood expansion.

Match Feed Type To Colony Goals

Sugar Syrup drives comb maintenance and brood food production when natural nectar is light. Early spring, a 1:1 ratio by volume (one part granulated sugar to one part warm water) stimulates brood rearing. Feed in internal feeders or top feeders to reduce robbing. Aim to keep at least several frames of stored nectar-equivalent in colonies earmarked for pollination.

Pollen Patties and Protein Supplements supply amino acids for brood food when natural pollen is patchy or low quality. Place patties directly above the brood nest, not at the edges. Strong colonies get full patties; weaker units or nucs start with half-sized portions to avoid chilling bees that spread out to cover excess feed.

Let Inspections Dictate Feeding Rates

Feeding protocols should follow the data you already gathered, not a fixed calendar. Colonies with solid brood patterns, low mite counts, and light honey stores respond well to stimulative 1:1 syrup and moderate protein. Hives still recovering from Varroa stress or disease signs need a different approach: stabilize them first, then feed to support rebuilding rather than force expansion they cannot support.

Use frame counts as your gauge. If brood is outpacing food, increase syrup and protein so nurse bees never ration jelly. If food is heavy and brood light, back off syrup and reassess queen performance and mite levels before adding more feed.

Timing, Quantities, And Climate Limits

In this region, spring nights often drop below freezing even when days feel warm. Cold syrup slows digestion and chills clusters, so feed during warmer stretches and avoid leaving open syrup exposed overnight. Thinner 1:1 syrup ferments faster in fluctuating temperatures; mix only what colonies will take within a few days and clean feeders between fills.

Start with conservative volumes per hive, then adjust by consumption rate and your notes. Rapid take-down with expanding brood suggests you maintain or slightly increase supply. Untouched patties or syrup signal either adequate forage, internal stress, or feeder placement issues; confirm by opening the hive instead of assuming the feed is unnecessary.

Sound feeding woven into your inspection and mite records keeps colonies on a controlled growth curve. Healthy honey bee colonies that enter pollination with steady brood, balanced nutrition, and manageable mite levels deliver reliable field strength rather than short spikes followed by collapse.

Coordinating Pollination Contracts for Timely Apiary Deployment

Once nutrition, mites, and queens are on track, the focus shifts from internal readiness to external commitments. Pollination contracts tie your bee work to someone else's crop schedule, so mistakes in timing or colony strength turn into yield problems and strained relationships.

Aligning Colonies With Bloom Windows

Start by mapping expected bloom periods for each crop against your own records on buildup pace. In southern Colorado and New Mexico, orchards, early vegetables, and seed crops all demand slightly different deployment windows. Contracts should specify target dates, but your notes on brood area, bees per frame, and feed consumption tell you whether colonies will hit those dates at full strength.

Only commit hives that show consistent field strength in your data. Combine frame counts, mite levels, and queen age to classify colonies into deployment tiers, for example:

• Primary Pollination Units: Strong colonies for early spring pollination with dense brood, low mites, and settled temperament.
• Backup Units: Acceptable strength but still rebuilding or borderline on one metric.
• Rebuild Yard: Colonies not suitable for any contract work this cycle.

Communication And Contract Basics

Clear communication with growers starts with simple questions: crop type, acreage, layout, prior bee history, and any pesticide plans. Put the answers in writing. Contracts should spell out:

• Number and strength class of colonies per location
• Placement details, access roads, and equipment needed
• Expected arrival and removal dates tied to bloom stages, not just calendar days
• Responsibilities around pesticide timing and notification
• Payment terms, including adjustments if bloom shifts or acreage changes

Refer to your hive records when negotiating numbers. If data show you have 120 colonies at primary strength and 40 as backups, avoid selling 160 primary units on paper. Under-promising and meeting those written terms builds trust far faster than optimistic estimates that ignore the ledger.

Scheduling Transport And Yard Layout

Transport planning starts weeks before trucks roll. Use your hive-strength tiers to build load lists: group colonies of similar power into the same yards so field performance stays predictable and notes remain consistent. Mark pallets and lids to match your record system so observations during bloom feed back into each colony's history.

Plan loading during cool, calm periods, with entrances screened and equipment already checked for soundness during earlier inspections. Yard maps with GPS points, gate codes, and contact names limit confusion on dark arrivals. After set-down, quick visual checks and a few sample counts against your records confirm that the colonies deployed match the strength contracted.

When contract terms, transport schedules, and hive data stay aligned, pollination shifts from guesswork to repeatable service. The same notes you used for inspections, queen decisions, Varroa control, and feeding now anchor reliable deployment and consistent results for growers.

Preparing your apiary for the spring pollination season hinges on a careful balance of detailed hive inspections, precise queen evaluations, vigilant Varroa mite monitoring, tailored feeding strategies, and thorough coordination of pollination contracts. Each step builds upon the last to create colonies that are strong, healthy, and ready to deliver consistent pollination services when crops depend on them most. By applying a data-driven, health-first approach, beekeepers not only optimize colony performance but also support sustainable practices that benefit the broader agricultural community.

Leveraging selective breeding and local expertise in southern Colorado and New Mexico, A to Zee's Apiary Services LLC exemplifies how combining science with hands-on experience can raise gentle, productive, and Varroa-resistant bees. This commitment ensures that both pollination clients and the bees themselves thrive through the demanding spring season. Prioritizing these essential preparatory steps sets a foundation for healthier colonies, dependable pollination outcomes, and long-term apiary success.

Take the time now to focus on these critical components and reinforce your apiary's readiness. For commercial beekeepers and farmers aiming for reliable spring pollination, thoughtful preparation guided by proven practices is the key to a prosperous season. To explore these strategies further or discuss your specific needs, consider connecting with experienced professionals who understand the unique challenges and opportunities of this vital work.